presentation on importance of civil engineering

Importance of Civil engineering

Feb 14, 2023

30 likes | 39 Views

You should pursue a degree in civil engineering with the assistance of a university assignment help, if you are a curious, exploring person with a strong desire to see the world. Travelling internationally to meet with clients is a standard part of a civil engineer's job. In order to gather all the data necessary to develop a plan for making a structure or even a base, they can travel overseas. In certain situations, uni assignment help must visit a location or a town. Working as a civil engineer can open doors to exciting global opportunities.<br>

Share Presentation

Presentation Transcript

ImportanceofCivilengineering You should pursue a degree in civil engineering with the assistance of a university assignment help, if you are a curious, exploring person with a strong desire to see the world. Travelling internationally to meet with clients is a standard part of a civil engineer's job. In order to gather all the data necessary to develop a plan for making a structure or even a base, they can travel overseas. In certainsituations,uniassignmenthelpmustvisita location or a town. Working as a civil engineer can open doorstoexcitingglobalopportunities.

LearningSuchSkillsWillHelpYou inAnyField IfyoudecidethatacareerinCivilEngineeringisn't for you while doing some research, you shouldn't letthatdeteryou.Theskills&knowledgelearnedin anundergraduateprograminCivilEngineeringare very marketable. Examples of such skills include analytical reasoning, innovative problem solving, proficienttechnologicalproficiency,andclearand conciseverbalandwrittenexpression.Additionally striking is the level of scientific, mathematical, & technologicalliteracydisplayedbytoday'syouth.

Helpimproving theworld A degree in engineering with a university assignment help Australiaisyourbestbet ifyouwishtoimprovetheworldas a place for everyone. Civil engineers design infrastructure like roads, sewage systems, buildings, railroads, dams, and otherstructures.Investina"domyhomeworkformecheap" service if you're interested in learning more. Civil engineers makeallofthesepossiblesothatindividualsand communitiescanlivetogethersecurely. ConstructionService.

• More by User

DEPARTMENT OF CIVIL ENGINEERING

DEPARTMENT OF CIVIL ENGINEERING. Branches and Scope of Geology. Er . Ramprasad Kumawat ( M.Tech ). INTRODUCTION TO GEOLOGY.

276 views • 7 slides

DEPARTMENT OF CIVIL ENGINEERING. E-mail : [email protected] Tel: 0495 228 6201/6200. DEPARTMENT SUMMARY. Number of faculty members – 32 Number of supporting staffs – 10 Programmes offered: . FACULTY PROFILE. FACULTY PROFILE. FACULTY PROFILE. FACULTY PROFILE.

347 views • 21 slides

Importance of Civil Services Examination

The best place to prepare for civil services examination is Delhi.

108 views • 1 slides

Civil Engineering

Civil Engineering . Eric Holtmeier. Education required . Bachelor or Master Degree Some courses are chemistry, physics, advanced mathematics, engineering statistics, thermodynamics, structural analysis, C ad programs classes and computer design apply for a State L icensing .

290 views • 11 slides

School of Civil Engineering

School of Civil Engineering. Integrating Heat Transfer Devices Into Wind Tower Systems to provide Thermal Comfort in Residential Buildings. John Kaiser S. Calautit Supervisors: Dr. B. Hughes and Prof. N. Wright 3 rd CFD Group Meeting. School of Civil Engineering. (Macro Climate) ( (.

302 views • 9 slides

By Nick DeLuca. Civil Engineering. What is Civil Engineering?. It is one of the oldest engineering disciplines F ocuses on the design, construction and maintenance of infrastructure. Environmental engineering Geotechnical engineering Structural engineering T ransportation engineering

543 views • 9 slides

Civil Engineering. What does a Civil Engineer do?. A civil Engineer is mainly responsible for public works and projects. He is apposite for the programming , planning, constructing and maintenance of: buildings, roads, bridges, ports, damns, airports, water management etc.

761 views • 4 slides

CIVIL ENGINEERING

CIVIL ENGINEERING. “The road to success is always under construction” Get it right….CIVIL ENGINEERS. WHAT DOES IT DO?.

376 views • 10 slides

URBAN ROAD DESIGN Lecture 5- Alignment and Profile of Urban Road. School of Civil Engineering. 孙仁娟. 2012.3.13. Basic Terms. The geometric design of highway deals with the positioning of the physical elements of the roadway according to standards and constraints.

772 views • 45 slides

Department of Civil Engineering

Dong-A University. Department of Civil Engineering. 대심도 연약지반에서 강관말뚝의 적용성 분석. 2011. 11. 30. 동아대학교 김성렬. 부마찰력을 받는 말뚝기초의 경제적인 설계법 고찰. 1. 부마찰력을 받는 말뚝의 설계법 고찰 2. 말뚝재료 설계강도 비교 3. 항타관입성 및 지지력 비교 4. 강관말뚝의 적용성 분석. 발표 순서. 1. 부마찰력을 받는 말뚝의 설계법 고찰. 1. 부마찰력을 받는 말뚝의 설계법 고찰.

654 views • 20 slides

CAREERS EDUCATION &amp; PLACEMENT CENTRE. Civil Engineering. Your Degree in Civil Engineering ... What Next?. Available occupations Directly related - Graduate Engineer, Site Engineer, Structural Engineer, Water Engineer, Environmental Engineer

389 views • 9 slides

Department of Civil Engineering. Turan Özturan , Chair [email protected] http://www.ce.boun.edu.tr RESEARCH RESOURCES : 30 faculty members Structures Laboratory Construction Materials Laboratory Soil Mechanics Laboratory Environmental Engineering Lab o ratory Hydraulics Laboratory

343 views • 7 slides

Civil Engineering. A People Serving Profession. Civil Engineering. Civil engineering focuses on the infrastructure of the world:

386 views • 16 slides

URBAN ROAD DESIGN Lecture 11- Subgrade and Pavement Design. School of Civil Engineering. 孙仁娟. 2012.5.15. Objectives. Concepts of subgrade and pavement; Design of the subgrade; Type and composition of rigid and flexible pavement;

627 views • 39 slides

Civil Engineering. By: Austin Brown &amp; Robin Alquicira. Civil Engineering. Is the role as it equates for the overall safety of society in many different facets where people live ,and the design and supervise construction of buildings and infrastructure ranging from skyscrapers to water mains.

637 views • 10 slides

Civil Engineering is wide stream of engineering, which deals with the planning, construction and maintenance of structures or public works as they are about earth, water or in space. Civil engineering is the oldest engineering field. It deals with the built environment and can be dated to the first time somebody located a roof over his head or laid a tree trunk across a river to make it simpler to get across. It is one of those fields of information which appropriately take their places both between the sciences and the arts

1.26k views • 10 slides

Importance of inplant training for civil Engineering

Inplant training in Tirunelveli is provided by UNIQ Tirunelveli. We offer the inplant training for CSE, EEE, ECE, MECH, CIVIL, EIE, BIO, IT in Tirunelveli. https://www.uniqtirunelveli.in/inplant-training/

251 views • 10 slides

Civil Engineering Course Online | NPTEL Civil Engineering | Civil Engineering Subjects

Edubull provides civil engineering courses online. Free NPTEL civil engineering online classes and online civil engineering subjects. Learn civil engineering basics with edubull. Get nptel civil engineering jobs, syllabus.

149 views • 4 slides

CEB 3103 GEOTECHNICAL ENGINEERING I. SOIL WATER AND WATER FLOW. Department of Civil Engineering. Prepared by R.Elakya , Assistant Professor. SOIL WATER. SOIL WATER. Water present in the void spaces of a soil mass is called ‘Soil Water’

666 views • 39 slides

Civil Engineering. What is it?. Definition of Engineering.

291 views • 20 slides

Overview of Civil Engineering

Overview of Civil Engineering. Visit for more Learning Resources. Civil Engineering is Everywhere. Civil Engineering is a composite of many specific disciplines. Structural Waste Treatment Transportation Geotechnical Water Management Construction Management.

345 views • 10 slides

Civil Engineering?

Civil Engineering?. Mechanical Engineering?. Electrical Engineering?. Engineering Your Future. By: Perry Hamburg. The engineer that I have decided to show to the class is an electrical engineer. He currently owns his own company, Mantaro, which he co-founded with a friend (also an engineer).

215 views • 13 slides

• Our Philosophy
• Affiliations
• Engineering Careers
• Civil Engineering
• Structural Engineering
• ALTA/NSPS Land Title Survey
• Laser Scanning
• 3D Modeling | BIM
• Landscape Architecture
• Construction Administration
• Roofing Consulting
• Paving Consulting
• Laser Scanning & Land Surveying
• Construction Administration Projects
• Roofing Consulting Projects
• Paving Consulting Projects

Why is civil engineering important?

In this post, we’re going to explore what makes civil engineering important to human society; how it shaped human civilizations, and how it continues to influence our lives in more profound ways.

What Is Civil Engineering?

Civil engineering is an engineering discipline that involves the design, construction, and maintenance of the physical and natural environment; including public works like roads, dams, sewage systems, bridges, airports, railways, pipelines, and structural components of buildings.

Roles or Civil Engineers

Civil engineers make use of the principles of civil engineering to design the many structures we see around us. They are responsible for planning and overseeing different construction efforts and applying civil engineering principles to ensure that constructed structures are safe and sturdy.

A civil engineer is responsible for analyzing the factors regards a construction project; including land feasibility, and the processes required to complete the job.

Preparation

After the situation has been analyzed in the planning phase, the civil engineer then prepares a detailed report that highlights all factors that must be considered before construction commences.

The civil engineer creates a concrete construction plan, ensuring that all regulations, guidelines, and laws are adhered to.

During the construction phase, the civil engineer meticulously follows the project from start to finish. He or she also makes the necessary changes along the way. They also make sure the safety features of the project are maintained.

The Importance of Civil Engineering

Human civilization rests on the staunch back of civil engineering. Here’s are some of the aspects of human society that would be impossible without civil engineering.

Construction

Construction engineering involves the planning and execution, transportation of materials, site development based on hydraulic, environmental, structural, and geotechnical engineering. Anytime you see tunnels, airports, railroads, skyscrapers, dams, utilities, telecommunication lines, and many more, just know that without civil engineering, they’ll all be impossible. Civil engineers apply complex engineering principles that ensure those structures stand.

Environment Preservation

Our actions have led to massive pollution on our planet. Environmental engineering is a sub-discipline of civil engineering that deals with the treatment of chemical, biological or thermal waste, and the purification of water and air. Environmental engineers administer pollution reduction, industrial ecology, and green engineering. They help us understand the consequences of our actions on the environment.

Urban Development

Urban centers are known for their municipal infrastructure. From sidewalks to water supply networks, street lighting, sewer system, waste management systems, civil engineers are responsible for all of that. Civil engineering plays a crucial role in the development of underground utility networks, the distribution of electrical and telecommunication networks, bus service networks, and more.

Water Resources Management

Water resource engineering, a sub-discipline of civil engineering, is concerned with the collection and management of water resources. It also involves the prediction and management of both the quantity and quality of aquifers and surface waters like rivers, lakes, etc. This area of civil engineering finds useful applications in the construction of dams, water pipeline networks, and more.

Transportation Networks

Transportation engineering is a sub-discipline of civil engineering that concerns itself with the efficient, conducive, and safe movement of goods and people from one point to another. This involves the design, construction, and maintenance of streets, rail systems, airports, mass transit, canals, and more. We all have civil engineering to thank for that.

Coastal Protection

When it comes to managing coastal areas, it cannot be done without the principles of civil engineering. It helps in designing defense mechanisms against flooding and erosion.

Material science

Many of the world’s civilization depends on materials like ceramics, concrete, asphalt, strong metals like steel and aluminum, thermosetting polymers. Material science is closely linked to civil engineering and it attempts to understand the fundamental properties of these important materials. Moreover, this sub-discipline has been at the forefront of nanoscience and nanotechnology, materials that will continue to have a greater impact in the future.

Understanding Earthquakes

The complex structures that cover our landscape have to be able to withstand forces from within the earth. Thanks to earthquake engineering, we can understand the interaction of structures to shaky grounds. This ensures that structures are built to perform well in the event of an earthquake.

Surveying is the process of analyzing and recording the characteristics of land areas span to help design a plan or map for construction. Surveyors lay out the routes of highways, railways, pipelines, roads, streets, and the position of other infrastructures like harbor before construction commences.

Civil engineering is also important in many other fields like geotechnical engineering, forensic engineering, and structural engineering. In short, a large part of our day-to-day life can be traced to civil engineering.

From the water we drink to the pavement we drive on to the buildings we reside in, the work of civil engineers surrounds us all. Complex transport systems connect points within a community. Road, air, sea, and rail networks span the entire globe – thanks to the hands of civil engineers. Civil engineering makes trade, travel, the exchange of ideas and information, healthcare, education, industry, and more possible.

Over the past few decades, our electricity demand has skyrocketed and it will continue. Civil engineers will be at the forefront of developing structures that consume as little energy as possible. As the world population surges, civil engineers will be responsible for building structures that will support us all.

Without civil engineering, it’s hard to imagine how the world we live in would look like, but we can be certain that marvelous man-made structures that fill our landscape will be absent. And as it stands, civil engineering will continue to play a role in human civilizations far into the future.

We look forward to working with you on your next project. Contact us today !

• Laser Scanning & Land Surveying
• Roofing & Paving Consulting and BIM
• Paving consulting excellence: Ensuring safe and durable pavements through expert design, material selection, and construction techniques
• Building Utah’s future: Highlights from McNeil Engineering’s winter newsletter
• The integral role of landscape architecture in master planned communities

Join Our Email List

The Role of Civil Engineering in Modern Society: A Comprehensive Guide

One of the oldest and most important fields of engineering, civil engineering is concerned with the planning, development, and upkeep of the built environment, including buildings, infrastructure, and transportation systems.

It is impossible to undervalue the significance of civil engineering since it is essential to the development of modern civilization. By planning and constructing the infrastructure that supports our everyday life, civil engineers significantly contribute to the development of modern civilization.

According to a report by the American Society of Civil Engineers (ASCE), the United States needs to invest $4.6 trillion by 2025 to meet its infrastructure needs, including roads, bridges, and water supply systems.

Importance of Civil Engineering in Modern Society:

We cannot exaggerate the importance of civil engineering in contemporary society. Civil engineers plan and construct the infrastructure that enables mobility, supports our economy, and ensures that everyone has access to clean electricity and water.

As they are in charge of planning and constructing secure, effective, and long-lasting infrastructure, civil engineers play a crucial role in the growth and development of modern civilization. Modern civilization as we know it would not exist without civil engineering.

Table of Contents

Historical Perspective

For thousands of years, civil engineering has been a crucial component of human civilisation. In the past, civil engineers were in charge of planning and constructing buildings like aqueducts, dams, and roadways. When the ancient Egyptians constructed the pyramids around 4000 BCE, they used cutting-edge engineering methods, making it the earliest instance of civil engineering ever recorded.

Civil engineering has developed over time to use increasingly advanced methods and materials. Civil engineers were instrumental in the development of new technologies, such steam engines and steel fabrication, during the Industrial Revolution in the 18th and 19th centuries, which enabled the building of larger and more intricate structures.

Major milestones in the development of Civil Engineering

The Roman Empire was known for its engineering skills, which included the building of water systems, roads, and bridges. Many of the Roman Empire’s historic constructions may still be seen today. The Roman Empire was a significant centre of civil engineering.

Industrial Revolution : The progress of civil engineering underwent a crucial turning point during the Industrial Revolution. Skyscrapers and suspension bridges were made possible by the development of new technologies like steam engines and steel fabrication.

Modern Era: Civil engineering has developed and grown significantly in the modern age. New methods and approaches to civil engineering have been developed as a result of developments in computer technology, materials science, and environmental sustainability. Airports, skyscrapers, and transit networks are just a few of the largest and most complex projects that civil engineers are now in charge of planning and constructing.

Key Areas of Civil Engineering

Civil engineering encompasses a wide range of disciplines and specialties. The following are eleven key areas of civil engineering:

1) Infrastructure:

The term “infrastructure” describes the physical and administrative facilities and structures that underpin modern society, including public buildings, water supply systems, and transportation networks. In order to make sure that infrastructure is secure, effective, and long-lasting, civil engineers are crucial in its planning, construction, and maintenance.

2) Construction:

Buildings, bridges, and other structures and amenities, including roadways, are all examples of construction. From planning to execution, civil engineers are in charge of overseeing all elements of building projects to make sure they are completed without incident, on schedule, and within budget.

The process of developing plans and specifications for buildings and other structures is referred to as design. To create structures that are secure, effective, and long-lasting, civil engineers draw on their knowledge of physics, mathematics, and materials science. They also develop comprehensive designs and models of structures using computer-aided design (CAD) software.

4) Structural Engineering:

Buildings, bridges, and towers are just a few examples of the structures that structural engineering concentrates on designing and analyzing. In order to make sure that structures are secure, stable, and long-lasting, structural engineers utilize their knowledge of mathematics, physics, and materials science.

5) Environmental Engineering:

Designing and creating solutions for environmental issues including pollution management, water and wastewater treatment, and renewable energy generation are the main areas of interest in environmental engineering. The goal of environmental engineering is to encourage sustainable practices and reduce the negative effects of human activity on the environment.

6) Geotechnical Engineering:

Geotechnical engineering is concerned with how the behaviour of soil and rock impacts the planning and building of buildings. Geotechnical engineers utilize their knowledge of rock and soil physics to guarantee that buildings are constructed securely and safely.

7) Transportation Engineering:

Roads, highways , railroads, and airports are just a few of the transportation systems that are the focus of transportation engineering. Designing safe, effective, and sustainable transportation systems requires the skills of transportation engineers in traffic flow, safety, and environmental impact.

8) Geomatics Engineering:

Maps, aerial photos, and satellite pictures are just a few examples of geographical data that geomatics engineering focuses on gathering, analyzing, and interpreting. In order to create precise and comprehensive maps and other geospatial products, geomatics engineers draw on their knowledge in surveying , mapping, and geographic information systems (GIS).

9) Water Resources Engineering:

Water resources engineering mainly deals with the management and conservation of water resources, including flood prevention, water treatment, and water delivery. To guarantee that water resources are managed in a sustainable and ecologically friendly way, water resources engineers draw on their knowledge of hydraulics , hydrology, and environmental science.

1) Infrastructure

A community or economy’s essential physical and organisational structures and facilities, such as its transportation and communication networks, power plants, and water supply systems, are referred to as infrastructure.

Types of Infrastructure:

There are several types of infrastructure, including:

• Infrastructure for transportation consists of highways, bridges, railroads, airports, and ports.
• Internet and telecommunications networks make up the communication infrastructure.
• Infrastructure for the delivery of energy, such as power plants, pipelines, and distribution systems.
• Infrastructure for the provision of water and wastewater, such as pipelines, sewage treatment facilities, and water supply systems.

Importance of Infrastructure:

Infrastructure is essential for economic growth and development because it makes it possible for people, things, and information to move around with efficiency. It also offers necessities like communication, energy, and access to clean water. Infrastructure systems that are properly created and maintained may raise citizen quality of life and support sustainable growth.

Examples of Infrastructure Projects:

The building of new roadways, the expansion of public transit networks, the creation of renewable energy facilities, and the modernization of water treatment facilities are a few examples of infrastructure projects. Large-scale infrastructure projects must be carefully planned and carried out since they can have a substantial impact on nearby populations and the environment.

2) Construction

Building or assembling structures, such as roads, bridges, and buildings, is referred to as construction. To generate a final product, the building process uses a range of materials, equipment, and procedures.

Importance of Construction:

Construction facilitates the construction of the physical infrastructure required for economic growth and development, making it a crucial component of civil engineering. Well-built buildings may enhance the safety and effectiveness of transportation networks and other infrastructure amenities while also enhancing the quality of life for residents.

Phases of Construction:

There are often multiple stages to the construction process, including:

• Planning and Design: During this stage, engineers and architects create the project’s plans and requirements.
• Site preparation include cleaning the site and getting it ready for building.
• Pouring the foundation and creating the building’s primary structure are included in the foundation and structural steps.
• Installation of systems : This includes setting up mechanical and technical systems including HVAC, plumbing, and electrical.
• Finishing: This stage entails providing the project with the final touches, such as paint, flooring, and fittings.

Examples of Construction Projects:

Examples of construction projects include building new structures, enlarging or renovating existing structures, building roads and bridges, and creating infrastructural facilities like water treatment and electricity production plants. Large-scale building projects need to be carefully planned and managed since they may have a big influence on the economy, the environment, and society.

Also Read – Mastering Construction Cost Estimation: Methods, Tools, and Best Practices for Accurate Project Budgeting

Design is the process of creating plans and specifications for a project, such as a building or infrastructure facility. The design process involves identifying the requirements and constraints of the project, developing a concept or idea, and creating detailed plans and specifications that guide the construction process.

Importance of Design:

Design is a critical part of civil engineering, as it ensures that the infrastructure and buildings constructed are safe, efficient, and functional. Well-designed structures and facilities can improve the quality of life for citizens and enhance economic growth and development.

Principles of Design:

The principles of design include:

• Functionality: The design should meet the functional requirements of the project.
• Safety: The design should ensure the safety of the users and the surrounding environment.
• Sustainability: The design should be sustainable and minimize the environmental impact of the project.
• Aesthetics: The design should be visually appealing and contribute to the beauty of the surrounding area.
• Cost-effectiveness: The design should be cost-effective and provide value for money.

Examples of Design Projects:

Examples of design projects include the design of buildings, bridges, and roads, as well as the development of infrastructure facilities, such as water treatment plants and power generation facilities. Civil engineers use a variety of tools and techniques to create detailed plans and specifications, such as computer-aided design (CAD) software and 3D modeling tools.

Structural engineering is a subfield of civil engineering that deals with the design and analysis of structures, such as buildings, bridges, and towers. Structural engineers ensure that structures are safe, reliable, and resistant to natural disasters such as earthquakes and hurricanes.

Importance of Structural Engineering:

Structural engineering is a critical field in civil engineering, as it ensures that structures are designed to withstand the forces that they will encounter during their lifetime. By using advanced techniques and materials, structural engineers can create structures that are stronger, lighter, and more durable, which can improve safety and reduce construction costs.

Examples of Structural Engineering:

Examples of structural engineering projects include the design of skyscrapers, stadiums, and bridges. Structural engineers use computer simulations, mathematical models, and physical testing to ensure that structures can withstand the loads and stresses that they will experience over time. In recent years, structural engineers have been using new materials, such as carbon fiber and high-strength concrete, to create lighter and more durable structures.

Environmental engineering is a subfield of civil engineering that deals with the application of science and engineering principles to protect and improve the environment. Environmental engineers work to identify and address environmental problems, such as air and water pollution, and design systems to prevent or mitigate these problems.

Importance of Environmental Engineering:

Environmental engineering is important because it addresses many of the environmental issues facing our planet, including pollution and climate change. Environmental engineers use their knowledge of biology, chemistry, and physics to design solutions that protect and improve the environment, while also meeting the needs of society.

Examples of Environmental Engineering:

Examples of environmental engineering projects include the design and implementation of wastewater treatment systems, the development of air pollution control technologies, and the design of systems to manage hazardous waste. Environmental engineers also work to address the impact of human activities on the environment, such as designing sustainable land use practices and developing renewable energy systems. With the growing concern for climate change, environmental engineers play a critical role in developing solutions that can mitigate the impact of human activities on the environment.

Geotechnical engineering is a subfield of civil engineering that focuses on the behavior and properties of soil and rock, and how they affect the design and construction of structures. Geotechnical engineers use their knowledge of geology, soil mechanics, and rock mechanics to ensure that structures are safe and stable, and to minimize the risks associated with natural disasters such as landslides and earthquakes.

Importance of Geotechnical Engineering:

Geotechnical engineering is important because the properties of soil and rock play a critical role in the design and construction of civil infrastructure. By understanding the behavior of soil and rock, geotechnical engineers can ensure that structures are safe, stable, and durable, and can minimize the risks associated with natural disasters.

Examples of Geotechnical Engineering:

Examples of geotechnical engineering projects include the design of foundations for buildings and bridges, the stabilization of slopes and embankments, and the design of underground tunnels and excavations. Geotechnical engineers use a variety of tools and techniques to investigate the properties of soil and rock, such as drilling, sampling, and laboratory testing. With the growing demand for infrastructure around the world, geotechnical engineering plays a critical role in ensuring that structures are safe, reliable, and sustainable.

Transportation engineering is a subfield of civil engineering that deals with the design, construction, and maintenance of transportation systems, including roads, bridges, highways, airports, and railways. Transportation engineers work to ensure that these systems are safe, efficient, and sustainable, and meet the needs of society.

Importance of Transportation Engineering:

Transportation engineering is important because transportation systems are critical to the functioning of modern society. They facilitate the movement of goods and people, and are essential to economic development and social well-being. Transportation engineers use their knowledge of traffic flow, safety, and sustainability to design and improve transportation systems, and to ensure that they meet the needs of society.

Examples of Transportation Engineering:

Examples of transportation engineering projects include the design of highways and interchanges, the development of intelligent transportation systems, and the planning and design of public transit systems. Transportation engineers also work to improve the safety and sustainability of transportation systems, such as designing pedestrian and bicycle facilities, and promoting the use of electric vehicles and alternative fuels. With the increasing demand for transportation infrastructure around the world, transportation engineering plays a critical role in ensuring that these systems are safe, efficient, and sustainable.

Geomatics engineering is a subfield of civil engineering that deals with the acquisition, processing, analysis, and management of spatial data. This includes surveying, remote sensing, geographic information systems (GIS), and global positioning systems (GPS). Geomatics engineers use their knowledge of these technologies to support a wide range of civil engineering projects, from infrastructure development to environmental management.

Importance of Geomatics Engineering:

Geomatics engineering is important because spatial data is critical to many civil engineering projects, including the design and construction of infrastructure, the management of natural resources, and the assessment of environmental impacts. Geomatics engineers use their expertise in surveying, remote sensing, and GIS to collect and analyze spatial data, and to provide insights and solutions to complex engineering problems.

Examples of Geomatics Engineering:

Examples of geomatics engineering projects include the design and construction of highways and transportation systems, the assessment of natural hazards such as floods and landslides, and the management of water resources and environmental impacts. Geomatics engineers also play a critical role in supporting disaster management and emergency response efforts, by providing accurate and up-to-date spatial data to decision-makers. With the increasing importance of spatial data in civil engineering, geomatics engineering is becoming an increasingly vital subfield in the industry.

Water resources engineering is a subfield of civil engineering that deals with the design, construction, and management of water supply and distribution systems, wastewater treatment and disposal systems, and water management systems such as dams, levees, and irrigation networks. Water resources engineers work to ensure that water resources are used in a sustainable manner, and that communities have access to safe and reliable water supplies.

Importance of Water Resources Engineering:

Water resources engineering is important because water is a finite resource that is essential to human survival and economic development. Water resources engineers use their expertise to ensure that water resources are used efficiently and sustainably, and that communities have access to safe and reliable water supplies. They also play a critical role in managing the risks associated with flooding and other water-related hazards, and in protecting the natural environment.

Examples of Water Resources Engineering:

Examples of water resources engineering projects include the design and construction of water treatment plants, the management of water distribution networks, the design and construction of flood control systems such as dams and levees, and the planning and design of irrigation systems for agriculture. Water resources engineers also work to promote sustainable water use practices, such as the use of low-flow fixtures and water reuse systems, and to protect natural ecosystems and habitats that rely on water resources. With the increasing demand for water resources around the world, water resources engineering is becoming an increasingly vital subfield in industry.

Future of Civil Engineering

Emerging technologies:.

The field of civil engineering is constantly evolving, with emerging technologies that are revolutionizing the way projects are designed, constructed, and managed. These technologies include Building Information Modeling (BIM), 3D printing, drones, and robotics, among others. BIM, for example, allows for the creation of virtual models of buildings and infrastructure projects, which can be used to identify potential problems and optimize designs. Drones and robotics are being used for site inspections and monitoring, while 3D printing is being explored as a way to rapidly construct buildings and other structures.

Advancements in Sustainability:

Sustainability is becoming an increasingly important aspect of civil engineering, as communities and governments around the world strive to reduce their carbon footprint and promote sustainable development. Advancements in sustainable materials, such as bio-based materials and recycled aggregates, are enabling engineers to design and construct more eco-friendly buildings and infrastructure projects. Green infrastructure, such as green roofs and rain gardens, is also being integrated into projects to reduce stormwater runoff and improve air quality.

Importance of Collaboration:

Collaboration is critical to the future of civil engineering, as projects become more complex and require expertise from multiple disciplines. Civil engineers will need to work closely with architects, urban planners, environmental scientists, and other professionals to design and construct sustainable and resilient infrastructure that meets the needs of communities. Collaborative tools, such as virtual reality and augmented reality, are also becoming more important for project visualization and communication.

In conclusion, the future of civil engineering is bright, with emerging technologies and advancements in sustainability enabling engineers to design and construct more innovative and resilient infrastructure. Collaboration among professionals from multiple disciplines will be critical to success in the coming years.

In conclusion, civil engineering plays a vital role in modern society, and its importance is only increasing with time. From infrastructure to sustainability, design to construction, civil engineering covers a broad spectrum of disciplines that impact our daily lives. The field of civil engineering is constantly evolving, with emerging technologies and advancements in sustainability shaping the future of the industry. Collaboration among professionals from multiple disciplines will be essential to designing and constructing innovative and resilient infrastructure that meets the needs of communities in the years to come. As we look to the future of civil engineering, it is clear that the field will continue to be at the forefront of driving positive change in our world.

Related Posts

How to remove a screen door safely.

Magnetic Screen Doors: Keep Bugs Out, Let Fresh Air In

Renovation vs New Construction: A Comprehensive Analysis

What Does a Civil Engineer Do? A Day in the Life

Author: University of North Dakota January 19, 2024

Delve into the daily tasks of a civil engineer. This guide explains their roles, work environments and the skills needed to thrive in the field of civil engineering.

Request Information

Civil engineering has been part of our survival since the earliest days of human existence. Picture the ancient ancestors seeking refuge in the shelter of caves, a primitive yet ingenious form of protection. As these resourceful beings used a strategically placed tree trunk to bridge the gap over a river, the rudimentary act of civil engineering became a testament to our innate need for innovation and problem-solving.

Throughout history, from the construction of the pyramids to the development of aqueducts, civil engineering has been the silent force shaping the world around us. Today, the question echoes, “What does a civil engineer do?” especially in our modern age of skyscrapers, bridges and intricate infrastructure. Let’s delve into civil engineering to uncover the skills, knowledge, and creativity that define a civil engineer’s daily tasks.

What is a Civil Engineer?

As the name implies, a civil engineer constitutes a professional working in a branch of engineering that employs a systematic and scientific approach to planning, design, construction, operation, performance assessment, and maintenance of infrastructure. The civil engineering field encompasses the entire life cycle of structures, encompassing their conception, building and ongoing maintenance.

Licensed and specially trained civil engineers play a crucial role in developing essential infrastructure such as roadways, bridges, water and wastewater treatment plants, airports, dams, pipelines, building and waste management systems—both in public and private domains. Their expertise extends to crafting and implementing solutions that enhance community safety, efficiency and overall quality of life. Essentially, a civil engineer’s objective is to drive societal advancement through carefully planned and safe infrastructure projects, which serve as lasting symbols of positive impact.

What Does a Civil Engineer Do?

Civil engineers engage in a diverse array of responsibilities that collectively contribute to developing and maintaining essential infrastructure. Their tasks often encompass designing new public or private civil engineering projects, ensuring that these structures meet safety, efficiency and environmental standards. Analyzing data and preparing detailed reports, maps and budgets are other integral aspects of their work, providing the groundwork for informed decision-making.

Civil engineers navigate the bureaucratic landscape by organizing permit applications and engaging in crucial discussions with government officials and project managers to discuss planning strategies. Additionally, they play a vital role in the sustainable evolution of existing infrastructure by developing comprehensive plans for repairs or replacements.

In a field marked by constant evolution, civil engineers also dedicate themselves to staying abreast of changing zoning laws and regulations, ensuring that their projects align with the most current standards. While the specific duties may vary based on the company or project, these core responsibilities encompass the multidimensional role of civil engineers in shaping our communities’ physical and functional landscapes.

What is the Workplace of a Civil Engineer Like?

Civil engineers can operate in various work environments that span diverse locations and conditions. Their workplaces include both indoor office settings and outdoor construction sites, where they oversee and manage multiple projects. Office work includes design of infractures including bridges, buildings, roadways, airports, water and wastewater treatment plants, etc. They work individually and as a team with people from different backgrounds and expertise including architects, geologists, electrical, and mechanical engineers.

The Bureau of Labor Statistics (BLS) reveals that the largest employers of civil engineers are within engineering services, constituting 48% of the workforce. Additionally, civil engineers find significant employment in state and local governments, nonresidential building construction and federal government agencies, contributing 12%, 10%, 6% and 3%, respectively.

In construction, some civil engineers may establish temporary offices, often in trailers, to efficiently manage projects directly on site. This versatility in work settings highlights the adaptability required in the field, allowing civil engineers to easily navigate between the planning, design and construction phases.

Essential Skills for Civil Engineers

To accomplish their daily tasks, civil engineers must draw upon a combination of both hard and soft skills. Fusing these skills helps with individual success by contributing to the overall efficacy and smooth execution of complex engineering projects.

Technical Skills

In terms of hard or technical skills, civil engineers need to possess:

• A strong foundation in mathematics, physics and chemistry to tackle the quantitative aspects of their projects.
• Proficiency in the planning, design, construction, operation, performance assessment, and maintenance of infrastructure in different areas of civil engineering including environmental, geotechnical, structural, transportation and water resources
• Proficiency in reading maps and blueprints.
• Computer skills in utilizing specialized software such as Microstation, Civil 3D and AutoCAD for precise modeling and drafting.
• Technical writing skills for creating comprehensive reports and documentation.

Soft Skills

On the other side, the technical skills mentioned above must be paired with:

• Effective teamwork
• Communication skills
• Critical thinking and problem-solving
• Time management skills
• Leadership qualities

How to Become a Civil Engineer

The initial step toward a career in civil engineering involves obtaining a relevant bachelor’s degree from an accredited institution. Common choices include civil engineering, construction, engineering, and civil engineering technologies, among other related fields.

After completing a bachelor’s degree in Civil Engineering , many opt for a graduate degree, such as a master’s in Civil Engineering or a Ph.D. in Civil Engineering , which can further advance one’s career, particularly those aspiring to managerial or academic roles. Additionally, obtaining relevant certifications allows individuals to enhance their qualifications in specific engineering specialties.

Many entry-level and non-supervisory roles do not require professional engineer (PE) licensure. However, the need for a PE license becomes more critical for civil engineers in roles involving public safety, where they are responsible for designing and overseeing projects impacting public health, safety and welfare.

For those interested in advancing to professional engineer roles, taking the Fundamentals of Engineering (FE) exam administered by the National Council of Examiners for Engineering and Surveying (NCEES) is essential. After passing the FE exam, individuals become engineer interns (EIs) or engineers in training (EITs). Following a few years of training, they can become licensed by passing the Principles and Practice of Engineering exam .

Salary and Job Outlook for Civil Engineers

The job outlook for civil engineers is promising, with a projected 5% growth in employment from 2022 to 2032, surpassing the average for all occupations. Approximately 21,200 job openings are anticipated each year over the decade, driven by the need to replace workers transitioning to different professions and those retiring from the labor force.

In terms of compensation, the median annual wage for civil engineers as of 2022 is $89,940 . The lowest 10% earned below $61,040, while the highest 10% earned over $138,690. Salaries vary across industries, with civil engineers earning as follows:

• Federal government: $103,170
• Local government: $101,460
• State government: $87,010
• Engineering services: $86,440
• Nonresidential building construction: $78,420

Should You Pursue a Career as a Civil Engineer?

A career as a civil engineer is not just a job; it’s a path filled with opportunities for growth, innovation and a tangible impact on the world. While the road to becoming a civil engineer involves rigorous education and the challenge of obtaining licensure, the rewards are substantial.

Beyond the financial rewards and positive job outlook, which speak of the demand for skilled professionals in this field, the profession offers the chance to be at the forefront of transformative projects, influencing the development of infrastructure that directly impacts communities. From designing resilient and sustainable infrastructure to ensuring the efficiency of public services, civil engineers have the chance to contribute to the well-being and progress of society.

Moreover, the challenges, including the responsibility for public safety in specific roles, are intrinsic to a profession with substantial significance. These challenges provide a sense of purpose as well as opportunities for continuous learning and professional development. So, if you are drawn to solving complex problems, fostering creativity and making a lasting impact on the communities you serve, a career in civil engineering is an avenue to fulfill those aspirations. It’s a career path where challenges are met with innovation and every project becomes an opportunity to leave a positive imprint on the world.

Bottom Line

Civil engineers are the architects of our modern world, orchestrating the construction of structures that stand as testaments to human ingenuity and progress. If you’re captivated by the thought of transforming ideas into tangible realities and envision yourself at the forefront of groundbreaking projects, consider becoming a civil engineer.

Here at the University of North Dakota (UND), we offer various programs that cater to every stage of your academic pursuit, from a Bachelor of Science in Civil Engineering to advanced degrees and accelerated options combining both. Join us in sculpting a future where the bridges we build connect not just physical landscapes but also the aspirations of future generations.

What type of civil engineer makes the most money? ( Open this section)

Environmental engineers have an annual median wage of $96,530 . It’s crucial to recognize that these figures provide a general overview and individual earnings may vary based on additional factors such as education, certifications and the specific demands of the job.

Is civil engineering a stressful job? ( Open this section)

Civil engineering can be stressful, depending on the project’s complexity, deadlines and job role. However, good teamwork and effective management can lessen this stress. Many engineers find satisfaction in overcoming challenges and completing projects, which can offset the stress. It’s important to note that each person’s experience with stress varies and finding a balance is key in this field.

By clicking any link on this page you are giving your consent for us to set cookies, Privacy Information .

Got any suggestions?

We want to hear from you! Send us a message and help improve Slidesgo

Top searches

Trending searches

solar eclipse

25 templates

145 templates

biochemistry

37 templates

12 templates

sunday school

65 templates

education technology

181 templates

Engineering Major for College: Civil Engineering

Engineering major for college: civil engineering presentation, free google slides theme and powerpoint template.

Have you ever gazed at a city from afar and told to yourself "wow, those are great bridges, those roads are interconnected brilliantly, and that airport has the perfect shape and size"? Perhaps your vocation is civil engineering! With this template, we wanted to give everything a more futuristic look, as if telling you "you can be the one designing the cities of the future". Meanwhile, enjoy editing these slides and adding all info about this field of study on top of the hexagon-patterned backgrounds.

Features of this template

• 100% editable and easy to modify
• 35 different slides to impress your audience
• Contains easy-to-edit graphics such as graphs, maps, tables, timelines and mockups
• Includes 500+ icons and Flaticon’s extension for customizing your slides
• Designed to be used in Google Slides and Microsoft PowerPoint
• 16:9 widescreen format suitable for all types of screens
• Includes information about fonts, colors, and credits of the resources used

How can I use the template?

Am I free to use the templates?

How to attribute?

Attribution required If you are a free user, you must attribute Slidesgo by keeping the slide where the credits appear. How to attribute?

Related posts on our blog.

How to Add, Duplicate, Move, Delete or Hide Slides in Google Slides

How to Change Layouts in PowerPoint

How to Change the Slide Size in Google Slides

Related presentations.

Premium template

Unlock this template and gain unlimited access

Slideshow Presentation Skills

Most recent revision of this article was led by Communication Fellow Matti Gralka.

It’s tempting to spend all your time preparing for a presentation by working on the slides, but the slides are only a visual aid for the presentation. The point of a presentation is to have a presenter! Otherwise you could just make beautiful slides, print them out, and have the audience read them. Nevertheless, spending a fair amount of time making sure your slides support your presentation optimally is a good way to feel safe and in control while presenting. Having a kind of story built into your slides will help you remember what comes next while presenting.

Dress properly for the occasion. Whether you are presenting in a classroom, a conference, or a job talk, you are also presenting yourself to the audience. Avoid wearing casual attire (e.g. hats, tank tops, shorts or flip-flops), and try to wear something a bit more formal. This will also make you feel more confident during the presentation. However, there is no need to dress up with a full suit for class presentations or even many conferences, unless for an academic job talk or a presentation in a business or industry setting.

Before the presentation

Try to check out the presentation venue the day before, or if that is not possible, arrive early with plenty of time to set up and get settled. Nothing is more distracting during a presentation than technical and procedural problems. Here’s an incomplete checklist to go through in the half hour before your presentation:

• Make sure that you can get the projector turned on, that your computer will show the slides, that any links you may have work, that you have your favorite slide clicker, that the slides look good under this lighting, etc. If you can, click through all your slides quickly.
• If you plan to show videos with sound, make sure that your audience will be able to hear them properly.
• Figure out where you’ll stand and whether you can walk around the stage without blocking the projector.
• Enter Do Not Disturb or Airplane mode to avoid notifications.
• If you are presenting your work at a conference or seminar, find out who will introduce you to the audience.

Starting the presentation

If you are speaking at a conference or a seminar, you will likely be introduced; take the stage thanking the host for the nice introduction and the opportunity to present. Then start your presentation by saying anything but the following words: “The title of my presentation is…” – your audience can presumably already read the title of your presentation on your cover slide, and it’s a missed opportunity to excite your audience. Here are a few better examples to start your presentation:

• “I’m excited to tell you about the discoveries we have made how about different clades of Prochlorococcus evolve in different parts of the ocean”
• “Today, I want to show you how we model the local climate and vegetation on the Galapagos islands, and how this allows us to predict how their vegetation will change as a result of climate change”
• “I look forward to telling you about my research on a novel kind of concrete that can withstand much larger temperature fluctuations than what is currently used”

Try to find an opening sentence that makes your audience excited to learn what you’re going to present to them. Once you have figured out a good opening sentence (This is hard! Take your time!), write it down and memorize it; practice it! This will help make you feel secure as you start your presentation because there is no uncertainty – you go on stage and say the words you have rehearsed; by then, some of the stage fright may already have lifted and the rest is relatively smooth sailing.

During the presentation

When presenting, what you say is just as important as how you say it. The content of your talk determines how impactful your talk can be, and your delivery determines how impactful your talk actually is . Without a strong, engaging delivery, you will lose your audience’s attention and miss an opportunity to communicate your content. Effective public speaking combines verbal and nonverbal skills into a compelling presentation, and both skill sets are important enough to warrant their own articles. Here are a few tips to get you started.

• Adjust your volume – err on the loud side, as many of us have the tendency to speak too softly (this is true even if you are speaking into a microphone).
• Speak your words clearly and with confidence. Practice unusual or difficult to pronounce words.
• Tailor your delivery – volume, rate, and inflection – to make your presentation easy to follow along.
• Monitor your inflection and avoid monotone speech. This may mean speaking with more melody or gusto or enthusiasm than you are used to.
• Use eye contact to engage your audience. If it’s a large room, turn your head or even body to talk to all corners of the room, not just the people in the middle. Rather than just scanning the audience, can you take time to make one-on-one eye contact with individuals? Use this as an opportunity to gauge the audience’s level of interest. Seeing how they respond to your slides, transitions, etc. can help you adjust your talk as you go.
• Maintain good posture to feel more confident. Strong body postures (e.g., power poses) convey confidence and a sense of importance during your talk. A straight back and a level chin with your eyes facing the audience will show that you are prepared and ready. Hands on the side and a slightly wider stance command space on the stage and demands attention. Of course, overly dramatic, arrogant, or otherwise off-putting stances and posture should be avoided.
• Emphasize deliberate movements and minimize unnecessary distractions (maximize signal-to-noise). For instance, if you are comparing two concepts, physically weigh them out with your hands to convey the difference as if your hands were a scale. Or, when transitioning between ideas, physically cue the viewers that there is a change in topic by casually walking to the other side of the stage.

(The metaphor of “signal-to-noise ratio” comes from Jean-luc Doumont’s book Trees, Maps, and Theorems .)

Ending the presentation

Just like you want to start strong, you want to end strong so that the audience remembers your key message. Summary slides can be helpful for this, but try to resist the temptation of including too many details. Find the (at most) three most important points and present them as a short and easy to read (and remember!) list, ideally with a striking picture to accompany each point.

Additionally, if you must make acknowledgements to people or funding sources, it is better to be specific with their contributions rather than giving general thanks and to ensure that only those who actually need to be thanked are thanked. You can also mention their contributions at the appropriate moments during the talk. Then, end your presentation with a variation of “And with that, I’ll be happy to take any questions.”

Taking questions

Getting questions after your presentation may feel like you failed in explaining your research properly, but the opposite is true: talks that were difficult to understand often elicit silence, whereas engaging talks will translate to an engaging Q&A afterwards.

Before presenting, prepare for the question and answer part of the talk. Figure out what questions you are likely to get (you can also indicate additional findings during your talk that you are leaving out in the interest of time, and more often than not someone will ask about them) and prepare yourself to answer them. Prepare backup slides that are more technical and that address a specific point. When you hear a question, wait patiently until the questioner has finished speaking. Then repeat the question in your own words:

• “If I understand you correctly, you are asking whether…”, or
• “That’s a great question: does A automatically imply B?”.

Take a breath before answering. This timing will allow other audience members to understand the question and will give you some time to formulate a cogent, coherent response. It is also much better to answer “I don’t know” to a question rather than bluff your way through a response.

For more Q&A tips, check out our CEE CommKit article, “ Handling the Q&A Session “.

Presenting remotely

There may come a time where you do not present your work in a physical seminar, but instead do so remotely. Many of the aspects discussed here still hold: make sure to test your setup (e.g., try sharing your screen in a Zoom conference with a friend), plan and practice your first few sentences, and so on. However, there are a few things to consider when presenting remotely; see this article for a more extensive list of tips.

• Since you most likely cannot see your audience members, it is difficult to gauge the engagement and level of understanding of your audience. Consider adding breakpoints during your presentation to allow for questions. Wait longer than feels comfortable. If you have a moderator, communicate to them how you will take questions during your talk.
• It is even more important to emphasize the focal part of your slide to support your presentation. Since you will need to rely more on verbal cues than nonverbal cues, use your voice to highlight important sentences, e.g., by inflection or repetition.
• Consider making your slides a bit more explicit in case of a bad connection. Adding arrows, legends, or short descriptions will allow your audience to follow along even if they cannot hear you for a second or two.
• Videos often do not work well in tele-conferences. If you must show a video, either send out a link so your audience can download the video beforehand and watch it locally. Better yet, if possible, show a few key still frames from your video instead.

For more slide presentation tips, check out these Comm Lab Blog posts:

• From Paper to Presentation: Redesigning Existing Figures for Slides
• Using Miniature Figures to Enhance Your Conclusion Slides
• Transitions: A Quick Tip to Make Your Presentation Flow

Here are some additional online examples

• A short primer: How to give a good scientific talk
• A longer seminar for scientific presentations: Designing effective scientific presentations
• A longer presentation for presentations more generally: How to give a great research talk

• school Campus Bookshelves
• menu_book Bookshelves
• perm_media Learning Objects
• login Login
• how_to_reg Request Instructor Account
• hub Instructor Commons
• Download Page (PDF)
• Download Full Book (PDF)
• Periodic Table
• Physics Constants
• Scientific Calculator
• Reference & Cite
• Tools expand_more
• Readability

selected template will load here

This action is not available.

Chapter 16: Technical Presentations

• Last updated
• Save as PDF
• Page ID 89921

One important, but often overlooked, skill in engineering is presenting. From talking with students, I have noticed that a lot of engineering students are intimidated by public speaking. In fact, I have almost a decade of experience lecturing, but I still am a little scared standing in front of a large classroom! It is OK to be a little nervous. I tell students being a little nervous means that you care, and caring is part of successful presentations. This chapter aims to reduce your presentation anxiety by teaching you the skills you need. The main key is to practice, know the format, and be prepared.

Learning Goals

In this chapter we will learn:

• Why it is important to practice and get comfortable presenting technical information.
• What your presentation should entail for the main type of engineering presentations.
• How to present technical information professionally and engagingly.
• What “audience” means and how to use what you know about your audience to your advantage.
• The art of PowerPoint and how to use the features in a non-distracting way.
• What should (and should not) be included in a technical presentation.

Why Learning How to Present Is Important

It is one thing to have a good idea, invent something cool, or develop new technology, but it is a whole other thing to successfully disseminate that information. A lot of people don’t realize that presenting is a skill and like all skills requires practice and study to perfect. It seems like it is easy to slap together a PowerPoint and talk about your project, but if you do not put the time and effort into the presentation to ensure that it impacts your audience, your work will be wasted.

Key Concept: You have to learn how to present in a compelling manner in order to get people to pay attention to your product/idea/report/etc.

For example, I have been an instructor and advisor for several senior design teams. I have seen team projects range from truly impressive to mediocre. I have also seen the impressive teams be dismissed at competitions and the mediocre teams win awards at competitions because of presentation skills alone. What I am trying to convey to you is that presenting can be the “make or break” for a project. No matter how good your project is if you can’t describe to people how good your idea is, no one will care. That being said, the moral of this story is not to do a mediocre project and coast on your presentation skills. Combining a good project with a good presentation should be your goal.

Finally, it should be noted, that engineers have to present a lot . In fact, engineers have to do presentations a lot more than you might think. You might have to present your design idea to your research and development team. You might have to present to the entire company describing how you optimized a system process for efficiency. You might have to present to shareholders the newest technologies your team is working on. You might have to present to future customers on how your technology can improve their productivity. The point is, that engineers are expected to be good presenters and historically, University education in engineering does not explicitly address this skill. Hopefully, this chapter and your subsequent education reverses this.

Presentation Anxiety

Before we jump into some examples and tips, I wanted to take a quick note on presentation anxiety. As I mentioned before, there is no getting around it, you will probably be a little nervous when you present. That is ok! Almost everyone feels a little nervous. However, there are tactics that you can use to reduce your anxiety when stepping up in front of an audience.

One of the biggest keys to reducing your anxiety is preparation . In fact, there is no such thing as “over preparing”. The more you prepare for your presentation the better you will feel because you will be more confident about what you are speaking on.

Here are three tips that should help when it comes to preparation and alleviating anxiety:

Anxiety Reduction Mechanism 1) Rehearse, Rehearse, Rehearse…

Although it might seem self-explanatory or obvious, rehearsing is the most important step in reducing presentation anxiety. In my experience, this is the step that most students spend the least amount of time on even though it is the most important.

Out of all of the time you budget to create your presentation, the majority of time needs to be spent rehearsing.

The more you rehearse, the smoother your delivery will become and the more confident you will feel. Rehearse in front of your roommates. Rehearse in front of your classmates. Rehearse in front of a mirror. Rehearse to your parents (this is a great idea as it will probably impress them about how far you have come in your education and maybe get a few more bucks thrown on your campus cash card!). Rehearse in front of your grandparents (I am sure grandma would love to hear from you anyway). I think you get the idea. Rehearsing is key and the more that you practice your presentation, the more comfortable you will feel. Rehearsing in front of people that aren’t familiar with the course is even better. It will generate questions and make sure that you are explaining things in an optimal manner.

What I suggest to students is, that they time each of the rehearsals of their presentation. The key is to continue to practice rehearsing and practicing until the group can finish the presentation without making any mistakes and when they can finish within +/- 5 seconds of the same time (if it is a 10-minute limit presentation, the team can finish each practice session in 9:50 seconds to 9:55 seconds every time). As you can imagine, this takes a ton of practice but does reflect the level of polish necessary to feel confident about your presentation.

Anxiety Reduction Mechanism 2) Anticipate questions.

The next key to preparation for your presentation is to anticipate the questions you think the audience will ask, and be prepared with answers to those questions. You can’t anticipate every single question that you may get asked, but you can probably think of a few avenues that your audience members’ minds might wander.

For example, let’s imagine that you are giving a presentation on the efficacy of a vaccine. Depending on your audience, you should be prepared to answer the following questions:

• What is a vaccine?
• Specifically, how do vaccines work?
• Do vaccines cause autism? (Spoiler: NO )
• What types of adverse reactions might there be to the vaccine?
• How long will it take to produce 100 million doses of the vaccine?
• Are there specific storage requirements for this vaccine?

Preparing detailed answers to these questions will strengthen your knowledge of your presentation topic and alleviate your anxiety. Since you anticipated the questions your audience will ask, you don’t have to worry as much about looking like a fool on stage. This is also where rehearsing in front of someone who is not familiar with the course or topic can be very beneficial since it will generate a lot of these types of questions that you may have not considered.

Anxiety Reduction Mechanism 3) No one in the audience cares about you.

Sometimes students interpret this incorrectly. I am not saying that no one cares about you. Lots of people do. Your professor does, you have friends in the class, etc. What I mean by this is that it is important to remember that when you give class presentations, often, your classmates and peers have to give presentations as well.

Think back to the last class you were in where you had to present. Think about sitting in your chair, while another team is presenting, waiting for your turn. Be honest. Were you even listening to them? Or were you anxiously awaiting your turn at the presentation? Well, the reality is, everyone else is only thinking about themselves and their presentation while you are presenting . When you make a tiny mistake, no one notices. The only thing they will notice is if you totally bomb the presentation (which you won’t because you rehearsed so much).

So as part of your preparation, relax . The selfish and narcissistic tendencies of your classmates ensure that they won’t be paying as much attention to you as you think they might. Hopefully, that relieves a little bit of the pressure.

Discussion 16.1: How do you feel about presentation anxiety?

What Your Presentation Should Entail

As an engineer, you will typically be presenting on projects you are proposing or presenting data from projects that you have already completed. All of the advice from this chapter (no such thing as over-preparing, etc) will be helpful in reducing stage anxiety but to make sure that your presentation is well received, you need to make sure that the presentation contains the appropriate material.

You will be expected to have the following sections: title, introduction, materials and methods, results, discussion, and conclusion. The following example presentation will highlight the most important and standard slides that your presentation should (probably) entail.

To describe each of the required sections (keep in mind that I am showing only one slide for each section but it is likely that you will need multiple slides) I included example slides from a presentation I gave at an American Society for Engineering Education conference in 2019 in which I won the “Best Presentation” award. Note, that the slides shown below are only a subset of the slides that I presented at the conference. For the full slide deck, you can click here.

Title Slide

The title slide is just a place to include the names of all the people that worked on the project and their affiliations. And the title. Duh.

• Keep it simple.

Introduction / Background Slide(s)

The purpose of the introduction slide is to outline your current understanding of the subject. You need to include specific examples of previous work/research.

• Clearly explain the importance of the current project and what the significance of the project will be.
• Justify the merit of your project by presenting significant information.
• End with a specific, clear, and explicit purpose for the project. Some of the projects that you complete during your undergraduate career will be chosen for you. It does not mean that the purpose of the project is “because the professor told me to do it”. Spend some time thinking about the project and what learning outcomes you are expected to gain from it.

Materials and Methods

The purpose of the materials and methods slide is to list the necessary steps for your audience to interpret the results.

• You should include: sample sizes, how the data will be processed, everything that was used in the project, and what statistical tests if any will be used.
• It should be clear how the materials and methods relate to the purpose of the project.
• The audience should feel that presenters fully understand the scope and details of the work (especially if it is a proposal).

The results slide is the place where you describe what you found from your project.

• Present the data from the project. What did you do? What did you find?
• Do not interpret your results yet! Just show what you gathered.
• Visual descriptions of your data are important. Be sure to include figures and tables as appropriate.

Although it might seem like your results are the most important slide, I would argue that it is actually your discussion slide. Whereas in your results section you simply tell your audience what you found, in your discussion section, you need to interpret the results for your audience.

• Interpret the data from the results section.
• Answer the “why” of the data.
• Draw conclusions about the project.
• List any limitations of the project.
• Discuss future work.

Conclusion / Significance

Finally, we get to the conclusion slide. This is another very important slide as it can be an opportunity to reinforce the takeaway message that you want to give your audience.

• Should be a “natural” conclusion. Your presentation should not end abruptly. The audience should feel it coming.
• Summarize the major points from your presentation. Be sure to provide your audience with a take-home message.
• Summarize the weaknesses of the project. It shows that you can critically think about your own work and makes your audience more sympathetic to your position. Admitting what you would change actually strengthens your position.

How To Give a Dynamic Engineering Presentation

There are two main things to worry about when presenting engineering information in a dynamic and interesting way; the content and yourself.

In my opinion, one of the best ways to convey what makes for a dynamic and engaging presentation is to have you look at one of the worst. What follows is one of the worst presentations I could find on the internet. To set the stage for you, it is from a British show in which people pitch their ideas to a group of investors (it is similar to the American show Shark Tank). I chose this particular clip for a few reasons:

It is supposed to be entrepreneurs getting the opportunity of a lifetime to get their dream invested. They should be excited and passionate by default! The following pitch is atrocious but the product is actually kind of an interesting idea. It seems to me that if she had given a more dynamic and engaging pitch, the investors may have been more interested. In fact, one of the investors says as much. With that out of the way, watch the following pitch from Gayle Blanchflower (I couldn’t find out if this spelling was correct). Note: the video should automatically start at 30:12 for you. If it doesn’t you can skip there. Also, be prepared to answer some questions on what you think went wrong with her pitch.

Discussion 16.2: An atrocious presentation

I am truly sorry for putting you through that. However, I hope you agree that it gives you some ideas of what NOT to do when trying to give a dynamic and interesting presentation. Here are some more tips about both the content of your presentations and tips for you.

Know your audience Your audience will dictate what you are presenting. If you are presenting on the efficacy of vaccines to a group of doctors, you can assume that they know what vaccines are and how they work, therefore, you can leave that information out of the presentation. However, if you are giving the same presentation to a group of middle schoolers, it might be a good idea to include that background information. The key is to know your audience and tailor the presentation to their knowledge.

Convey your excitement If you aren’t excited about your project, your audience surely will not be. Get excited and make your presentation exciting the best that you can.

Tell a story This chapter gives you the basic framework (you can think about it like the beginning, middle, climax, end, or a story) but you need to tell it. The more you can make your presentation flow like a story, the better.

Keep it simple (communicate, don’t obfuscate) Every field has jargon and acronyms that make people feel smart for knowing. Don’t lose your audience in the lingo! This is where knowing your audience is critical but in reality, even scientists and engineers appreciate brief definitions of scientific terminologies and processes.

• Set the stage. Clear the podium of distractions. Have whatever tools you need for your presentation ready to go ahead of time.
• Get ready to perform Presentations are performances. Know your subject and know your main talking points. Do not memorize a script! Your rehearsing should have been so extensive you don’t need one anyway.
• Stride up to podium / stage / front of room. Be proud! Don’t sulk.
• Stand tall, keep your chest lifted, and smile. If you aren’t confident by nature, learn to fake it. It goes a long way.
• Pay attention to your teammates when it is their turn to talk. Remember, if you look bored, your audience will interpret that as if they should be bored.
• Speak loudly and project your voice clearly. For some, this is not natural and will take practice. Good thing you rehearsed so much!
• Take your time. A moment or two of silence is a powerful tool.
• Talk to the audience, not the screen.
• Stay on time.
• Rehearse a lot. Remember, there is no such thing as being over-prepared.

PowerPoint Tips

As I stated before for dynamic presentations , I think it is a good idea to look at bad PowerPoint decks to understand what makes the good ones, good. Before moving on, take a look at the slides here: https://www.slideshare.net/Kshivets/...cancer-surgery –4936542. When you have finished looking at those slides, participate in the following discussion prompt before moving on.

Discussion 16.3: A really terrible slide deck

Well after reviewing that horrible slide deck, you should actually probably have a good idea of what makes for a good slide deck. Here are my tips:

• Less is more. Less slides, less text. Trim off the fat and concentrate on the coolest most relevant things.
• Create sections. Title slides to start new sections can help break the presentation into a logical flow. Specifically, you should use the sections that we discussed earlier in the chapter.
• Avoid clutter. 3–5 bullet points per slide at most! Bullets should be keywords, not sentences.
• Make it readable for old people. Sans serif fonts. 28–40 point for headline text, 18–28 point for normal text, and 12–14 point font for references is a good place to start.
• Ensure that there is a clear contrast between the background and all text.
• Use visuals. Steer clear of videos unless completely necessary or exceptionally cool. In my experience, they NEVER work and they take lots of time away from your presentation. Figures are your best bet.
• Triple-check your spelling. A sure-fire way to lose credibility is to have typos in your presentation

• Skip to primary navigation
• Skip to main content
• Skip to primary sidebar

Engineering Management Institute

TCEP 064: Public Speaking for Engineers

August 16, 2017 By EMI

Podcast: Play in new window | Download | Embed

In episode 64 of The Civil Engineering Podcast, I talk with Shoots Veis, P.E., author of the book called: Public Speaking for Engineers  which was recently published by ASCE press. We will be talking about why public speaking for engineers is an important part of your professional development as an engineer.

Here are some of the questions I ask Shoots:

• What made you write a book on public speaking?
• Why is public speaking so important?
• How can a civil engineer improve his or her public speaking skills?
• What are visual aids and what is the right way to use them?
• Tell us more about your acting career and how it helps you reduce stress in your life?

Engineering Quotes

Here are some key points discussed on public speaking for engineers:.

• What we as engineers have to say is so important and so often we don’t communicate it well. This leads to bad public policy, bad decision making and it makes the jobs of civil engineers harder.
• Public speaking is very important because it helps us as engineers communicate with our audience.
• If you can’t communicate important details to others it makes the engineers’ job as well as others jobs more complicated.
• There are real life consequences to not being able to communicate effectively.
• In order to improve your public speaking skills, you have to, first of all, acknowledge that you have a problem. After that, you will constantly need to work on your public speaking skills.
• Take some time to plan, design and practice your presentation. Continue an ongoing assessment of your skills and keep looking for ways to improve your planning, design, and delivery of your presentations.
• The butterfly effect in your stomach never goes away, but over time and with practice, it gets a thousand times better than what it was before.
• Visual Aids should be well designed and should meet the needs of the audience as well as the speaker. They are however not designed to be or to replace the presentation. Make sure you use visual aids as a tool to help you communicate your message to the audience, and not as a substitute for preparing and delivering your presentation.

More details in this episode…

About shoots veis :.

Shoots is a past President of the Montana Section of ASCE and the Billings Engineers Club. He served as a liaison officer to the Trade Minister of Australia at the May 2011 APEC meeting in Big Sky, was a 2005 Leadership Montana class member, past Chairman of the Board of the Yellowstone County Youth Service Center, and was a member of the City of Billings Board of Adjustments. Over the course of several years, he taught introductory algebra and essential math for the trades at MSU–Billings in addition to his full-time position.

You can learn more about Shoots on his LinkedIn Page or Twitter Page .

Sources/References:

Ask Anthony – ASCE Toastmasters International TECC 57: The Engineering Career Coach Podcast – Five Tips for Drastically Improving Your Engineering Presentations with Melissa Marshall Shoots LinkedIn Page Shoots Twitter Page

This episode is brought to you by PPI , the leader of civil engineering FE or PE exam preparations. Use promo code PREP  and enter the raffle here:  www.ppi2pass.com/civilprep

This episode is also brought to you by SkiCiv,  a new and powerful structural analysis software on the cloud that is changing the way engineers work. To receive your free 14-day trial, sign up here:  www.skyciv.com/coach  

Books mentioned in this episode:

Public Speaking for Engineers

Please leave your comments or questions in the section below on public speaking for engineers.

• If you enjoyed this post, please consider downloading our free list of 33 Productivity Routines of Top Engineering Executives. Click the button below to download. Download the Productivity Routines

To your success,

Anthony Fasano, PE, LEED AP Engineering Management Institute Author of Engineer Your Own Success

Related Posts

• TECC 118: How Engineers and Engineering Firms can Build Thought Leadership through Public Speaking
• Five Benefits of Public Speaking
• Public Speaking Skills for Engineers 101: The More You Speak, the Better You Get
• Better Marketing for Engineering Firms Through Better Public Speaking
• The Best Ways to Find Public Speaking Opportunities Around You

ENGINEERING MANAGEMENT INSTITUTE

We can help you:.

• Build solutions to attract talented professionals.
• Develop your staff’s people skills.
• Create career roadmaps for your staff.
• Provide PM training for your professionals.
• Build custom development programs.
• Scale sustainably.

50 E. Ridgewood Avenue #129

Ridgewood NJ, 07450

800-920-4007

SPECIAL DOWNLOAD

33 Productivity Routines of Top Engineering Executives

Presentation Skills for Civil Engineers

Presentations are a formal type of verbal communication. Here, ideas are being transferred from one person to the next or a group, by the use of tools like Microsoft Office PowerPoint or Google slides. This conveyance of information with the aid of audio-visual mediums have proved very beneficial in the construction industry as well. Therefore, the importance of possessing presentation skills in the construction industry stands important.

Exploring the need for having presentation skills in the industry

Here are a few reasons why –, 1. uplifting confidence.

Be it the construction industry or any other, the prime aspect of having good presentation skills is that it will boost your confidence. Gradually raising your morale, helping you to put trust on your capabilities.

2. Better Communication

More than anything, having a sound grip on presentation skills help you communicate better with others. This can be your subordinates, superiors or clients. One of the main reason why corporate’s emphasis on having this skills for their employees! Also, better project collaborations happen with better communication.

3. Exhibiting and Sharing Knowledge

Presentations can be a medium to show your expertise in the area of concern. In addition to personal upliftment, employees with great presentation skills become an asset to the enterprise as a whole!

4. Omission of miscommunication

Another important fact is that a good presentation has the capability of removing misunderstandings and ambiguity among different topics.

5. Enhancement of basic operation

As it is generally acknowledged, better the communication, better the operation of basic functions in an organisation. This includes – Planning, division of labour, leadership, execution of tasks and controlling.

6. Opening new networks

Socializing and mutual discussions pave way to opening new networks in the organisation. Ideas processed after brainstorming can be better conveyed through a presentation to the peers.

7. Management of time

One of the important aspect is presenting the matter within a fixed amount of time. This helps build and stick on to time management in the work-circle, which is of great validity as far as construction projects are concerned.

This demonstration of ideas intends to perform a mixture of functions –

A) presentation skills for educating the team –.

For example, the presentation can be about the safety protocols to be followed on site, as part of an induction programme. Another example is the training that can be given on recent advancements in the construction industry. This can prove beneficial to the listeners to a greater detail.

b) Presentation skills for informing the team –

In addition to educating the team, there can be passing on of general information as well. This might include client feedback’s and general agendas of importance in the enterprise. Making an effective presentation with better audio-visual tools help transfer information to the audience promptly. Presentation of clean, crisp and clear information also helps to give voice to a leader in you!

c) Presentation skills for motivating the team –

An execution team of a construction contract in the site consists of many members. Mostly, the construction contracts come with a tight deadline and puts the team in serious pressure. Therefore, it is vital to ensure that the whole of the team has a rise in spirits and is sufficiently motivated.

The team lead or task manager generally takes on to ensuring the easing down of tensions, by inspiring the team mates to put their best feet forward. This process comes easy with presentations that can focus on benefits, bonuses and additional allowances that can calm the nerves of those who work.

The importance of having presentation skills is clearly valid. However, researcher’s hold view that the present construction industry faces a huge skill gap globaly.

Few tips to refine your presentation skills

1. plan the matter prior to presentation.

Take time to research on the subject and have an insight before hand on the pulse of the audience. Eleventh hour hurry can only pull down your performance, even if you have talent in presenting.

2. Clear delivery of ideas

While presenting a project idea to a client, spare the use of complicated jargon. Compromises can be however made if you are using the same in your work-circle. But this is very subjective to the situation.

Make a note that the audience upfront looks forward to hearing your novel ideas with easy understanding. Therefore stick on to facts and figures. Even if you have aptitude to show off your complex vocabulary, you can save it for later. Make the session lively and engage the listeners.

3. Wear confidence and a smile

It is important to be confident, standing straight and firm while you present your content. Remember, only if you appear confident in what you say, shall the audience place their confidence in you! This is a key pointer to give attention to while you pitch to the clients.

In addition to the above mentioned, there are many thumb rules on postures and gestures that you can refer to before giving your presentation. Value the listener’s time and make the most use of your’s as well while you present! Take proper training to sharpen your innate presentation skills before the big day!

So, that was about the importance of having presentation skills in the construction industry. Even today, there’s a huge gap of lacking presentation skills in this sector. Surely, we can work towards bettering it – one step at a time!

Privacy Overview