Certified Civil Engineering Professional
Why should you take this Certification?
This certification will make you Internationally Certified and will help in growing your career.
This certification will help you to get Job & Freelance opportunities from thousands of companies.
Average salary given to a Certified Civil Engineer is around $60,000 per annum.
Exam Cost: USD 30.00 5 out of 5 based on 12424 ratings.become certified WhatsApp us share
What Is Civil Engineering?
Civil engineering is a branch of engineering that deals with the design, construction, and maintenance of the physical and naturally created environment, such as roads, bridges, canals, dams, airports, sewage systems, pipelines, building structural components, and railways.
Traditionally, civil engineering has been divided into several sub-disciplines. It is defined to distinguish non-military engineering from military engineering, and it is regarded the second-oldest engineering discipline after military engineering. Civil engineering can be found in the public sector, ranging from municipal public works departments to federal government agencies, as well as in the private sector, ranging from small businesses to Fortune 500 corporations.
Engineering has always been a part of life, dating back to the dawn of time. Civil engineering may have begun in ancient Egypt, the Indus Valley Civilization, and Mesopotamia between 4000 and 2000 BC, when humans began to abandon their nomadic lifestyles, necessitating the construction of shelter. Transportation became increasingly vital throughout this period, resulting in the development of the wheel and sails.
Norwich University, founded in 1819 by Captain Alden Partridge, was the first private college in the United States to study civil engineering. Rensselaer Polytechnic Institute conferred the first civil engineering degree in the United States in 1835. Nora Stanton Blatch was the first woman to receive such a degree, which she received from Cornell University in 1905.
Civil engineers usually have a civil engineering degree from a university. The program lasts three to five years, and the end result is a bachelor of technology or bachelor of engineering degree. Physics, mathematics, project management, design, and particular courses in civil engineering are all part of the curriculum. They continue on to high level specialization in one or more sub-disciplines of civil engineering after studying fundamental courses in most sub-disciplines.
Salary Range of Civil Engineers
Depending on the experience level and the demographic area, the salary of a Civil Engineers varies widely.
The following is the average Civil Engineer Salary in USA:
|Best Minds In Civil Engineering||$125,000|
|Senior Civil Engineer||$ 100,000|
|Intermediate Civil Engineer||$ 80,000|
|Civil Engineer Freshers||$ 50,000|
The following is the average Civil Engineer Salary in India:
|Best Minds In Civil Engineering||INR 150,000|
|Senior Civil Engineer||INR 60,000|
|Intermediate Civil Engineer||INR 35,000|
|Civil Engineer Freshers||INR 20,000|
What Is Civil Engineer Certification?
Civil Engineer Certification assesses a person's knowledge of the engineering concepts as well as their understanding of real world scenarios. A variety of certifying authorities, ranging from government agencies to commercial enterprises and organizations, offer the Civil Engineer certification. Certifications are normally obtained by the completion of an online or offline exam.
All certificates have their own set of benefits, such as international recognition, career opportunities, freelancing, and so on. So, Civil Engineer certification is an online exam that evaluates an engineer’s skills and knowledge in order to match them with the suitable opportunities.
Best Civil Engineering Certification & why you should appear for it?
The online Civil Engineer certification from Loopskill is considered to be best in market and will assist you in becoming a certified engineer. You can take this exam and by scoring 70% you will become an internationally certified Civil Engineer. This certification will help you in three different ways:
- You can demonstrate your Civil Engineer certification to potential employers and can stand out of the crowd.
- You can apply for great jobs using loopskill website or app; moreover, our partners companies will contact you directly for full-time or part-time opportunities depending on your skills & requirements.
- Loopskill is not just a platform to get certified or to find full time jobs; here being a certified engineer you can also do freelancing for the clients around the globe. You will be approached by the clients who need your help in different problems.
The loopskill’s online Civil Engineer certification is created to help people in exploring and achieving their full potential so they can get connected to the best opportunities around the globe.
Marvels of Civil Engineering
Hoover Dam: The Hoover Dam, one of the Seven Wonders of the Modern World and a Historic Civil Engineering Landmark, rises 726 feet above the Colorado River and produced Lake Mead, the western hemisphere's largest man-made lake. The Hoover Dam, which began construction in 1931 and was completed in 1935 at a cost of $165 million, was the world's largest dam at the time of its completion, needing 4.25 million cubic yards of concrete to construct. During construction, crews dangled from ropes at heights of up to 800 feet. However, the end result was a triumph of engineering: a dam with a base width of 1,660 feet and a crest width of only 45 feet. The Hoover Dam, however, is much more than a massive concrete barrier; it also generates 4 billion kilowatt-hours of hydroelectric power each year, enough to power over a million people.
Millau Viaduc: The Millau Viaduct is the world's longest suspended bridge and the world's tallest cable-stayed road bridge. It is one of contemporary engineering's finest achievements. It is 8,071 feet long and has a deck that rises 900 feet above the earth below. Each of the building's foundation towers is 1,125 feet tall, almost as tall as the Empire State Building. The bridge couldn't be built in parts and then put together because of its great height. Rather, highways were built on both sides of the colossal towers and then rolled out to meet in the middle of the bridge.
Deira Island's Palm: Palm Deira, the largest of the three islands in dubai, covers 46.35 million square meters and required three billion cubic feet of seafloor sand to construct its 17 palm-leaf inlet structures. It holds the record for being the world's largest man-made island.
Channel (England): The English Channel Tunnel, usually referred to as "the Chunnel," is the world's longest underwater tunnel. The Chunnel joins England and France from beneath the English Channel, spanning 31.4 miles at a depth of 246 feet at its deepest point. The tunnel, which opened in 1988 and was completed in 1994, takes around 20 minutes to go from London to Paris by train at 100 miles per hour.
The Burj Khalifa: The building has 163 usable floors and 27 terraces, as well as one of the world's longest and fastest single-running elevators, which travels about three stories per second. Between 2004 and 2010, this behemoth was built in 22 million man-hours, with an average of 12,000 daily workers at its peak. Wind rates of 99 miles per hour made construction incredibly unsafe as well as an engineering headache, especially with those massive cranes so high up. And worker shifts didn't stop when the sun went down; because to the high desert temperatures during the day, much of the concrete had to be pushed 2,000 feet straight upward throughout the nights.
Important Topics to Learn & Master in Civil Engineering:
If you wish to become a Civil Engineer master, the topics listed below must be covered.
- Basic Civil Engineering (BCE)
- Engineering Mathematics
- Engineering Chemistry
- Engineering Graphics & Design
- Introduction to Manufacturing Processes
- Basic Electrical Engineering
- Programming and Data Structure
- Engineering Drawing and Graphics
- Electrical Technology
- Manufacturing Processes
- Design Engineering
- Building Construction Technology
- Structural Analysis
- Mechanics of Solids
- Building Construction
- Structural Analysis
- Engineering Geology
- Strength of Material
- Highway Engineering
- Hydrology & Water Resources Engineering
- Environmental Engineering
- Geotechnical Engineering
- Disaster Assessment using
- Applied Fluid Mechanics Railway
- Bridge & Tunnel Engineering
- Water & Waste Water Engineering
- Earthquake Engineering
- Construction management and Equipments
- Irrigation Engineering
Civil Engineering’s Software:
Civil 3D by AutoCad: Civil 3D is a civil engineering drafting software featuring a variety of design, analysis, and simulation capabilities for civil engineering design. It is easily the most widely used application in the business. On a high level, we use CAD to develop construction documentation, which is a set of plans. Civil 3D's breadth of tools will help you to develop inventive and detailed designs, from polylines to feature lines, pipe networks to profiles.
HEC-HMS: The Hydrologic Modeling System (HEC-HMS), which is considered a benchmark for hydrologic simulation, is designed to replicate the hydrologic process of watershed systems and offers you with virtually all the drainage data you could require. In the program, you specify the physical parameters of a watershed as well as the meteorology that affects it during a certain time period. The simulation findings are straightforward. Peak flow, total volume, depth and storage values in reservoirs and ponds, and other elements are summarized in tables.
HEC-RAS: In addition to HEC-HMS, the US Army Corps of Engineers' Hydrologic Engineering Center developed the River Analysis System (HEC-RAS). This program simulates water flow via rivers and canals with a variety of cross sections. This application will assist you in determining if water may safely pass through specific infrastructure (channels, streams, bridges, culverts, etc.) without creating floods in the surrounding area. The system can assess both steady and unsteady flow, sediment transport simulations, and water quality components, and its mapping tools are frequently used for floodplain management.
Microsoft Project: Microsoft Project is a project management application from Microsoft. It has a user interface that is similar to Microsoft Office, notably Excel, and makes navigating the program simple. When it comes to managing engineering projects, scheduling is crucial. Microsoft Project will allow you to construct precise schedules to manage your various projects if you understand basic scheduling concepts such as activity linkages, critical routes, Gantt Charts, and more.
StormCAD: StormCAD is a drainage system, stormwater, and sanitary sewer design modeling and analysis program. It is used on a regular basis by civil engineers to size pipes and structures for a variety of construction projects. StormCAD can calculate drainage area runoff, inlet capacity, gutter and pipe network flow, and other things. The outputs and custom report generator are useful in delivering the information needed to confirm that your system is properly engineered. Importing and exporting between programs is significantly easier now that GIS and AutoCAD are supported!
SSA: Autodesk's Storm and Sanitary Analysis (SSA) application is comparable to StormCAD. SSA is also useful for analyzing and designing drainage, stormwater, and sanitary sewer systems. Autodesk built SSA as an extension within AutoCAD so that users could use both softwares with the flexibility to import and export back and forth when your design changed. SSA is a user-friendly program that can design/size pipes, detention facilities, and drainage channels, among other things.
WaterCAD: WaterCAD is a Bentley utility design program that focuses on water distribution networks. It's a hydraulic model that uses network characteristics like appurtenances and fire flow data to help you build enhancements like pipe sizing and location, pumps, and more.
Future of Civil Engineering
Civil engineering is one of the oldest fields of engineering that deals with the design and construction of large-scale structures such as buildings, highways, bridges, and dams. It has existed since the dawn of civilization and has progressed with the construction of massive undertakings such as France's Pont du Gard and China's Great Wall. Emerging sciences such as artificial intelligence and nanotechnologies have recently made waves in a variety of fields, including civil engineering.
Transportation engineering is a civil engineering subject that deals with the infrastructure needed to carry people and products. With the advent of semi-autonomous and electric automobiles like Tesla's, roadways will need to be modified to accommodate these self-driving vehicles. For example, highway lanes might be organized to segregate autonomous vehicles from commuter cars and bicycles based on the varied forms of traffic on the road. As more people transition to electric vehicles, the number of charging stations will need to be increased.
Artificial intelligence, or AI, is the process of machines learning from their previous experiences on their own. Chess-playing computers and self-driving automobiles are two well-known instances of AI. Many professional responsibilities currently entrusted to younger engineers could be replaced by AI in the building sector. This is due to the fact that computers can process enormous quantities of data banks obtained from diverse initiatives and use them as learning experiences. As a result, AI may assist in making many of the critical decisions on a construction site that were previously outsourced to engineers. This will result in significant improvements in project delivery speed as well as cost and carbon emissions reductions.
Another discipline of civil engineering that is undergoing considerable changes as a result of high-tech improvements in the business is structural engineering. In reality, structural engineers may be rendered obsolete in the future of structural engineering. This is mostly owing to advances in computer modeling, which allow AI to generate incredibly complex structures without the use of human labor. Cloud computing can provide access to massive processing power, reducing the time and talent required to create these intricate designs. For example, selecting member sizes for steel-frame constructions can now be done in seconds rather than days as required by previous procedures by a structural engineer.
Nanotechnology is the study of materials with a size range of 0.1 to 100 nanometers. It's a relatively new field with several applications in a range of fields, including civil engineering. Venture capitalists and corporations have made investments in the concrete and steel used to construct structures in the construction industry alone. Incorporating nano silica, nano-clays, or nano iron particles in concrete, for example, can increase the pore structure of the concrete while also combating the early-stage problem of poor strength.
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