Everyday Engineering: Understanding the Marvels of Daily Life

Course No. 1116
Professor Stephen Ressler, Ph.D.
United States Military Academy, West Point
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4.9 out of 5
208 Reviews
94% of reviewers would recommend this product
Course No. 1116
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What Will You Learn?

  • Discover the amazing feats of engineering in our every day world, such as a roof, plumbing, phone, roads, and more.
  • Learn how raw water is treated to make it drinkable and about the incredible feats of engineering it takes to get that water to you.
  • Explore the deep, dark world of tunnel engineering and the highly specialized methods used to build them.
  • Examine the Great Northeast Blackout of 2003 and see what it can teach us about the world of everyday engineering.

Course Overview

Look around you. Great masterpieces of engineering are everywhere. As soon as you get out of bed in the morning, you are putting centuries of scientific and mechanical ingenuity to use. So familiar are these structures, inventions, and services that they are all but invisible. Yet they are just as remarkable as great works such as the Parthenon, the Eiffel Tower, and the Panama Canal.

Consider for a moment the wonders of these marvels that have likely already played an important part in your day today:

  • Residential construction: Built with common materials and simple tools, the modern house is a technological system for living. It provides protection and comfort, access to life’s necessities, and a flexible space for work and recreation.

  • Telecommunications: Able to link you to any phone in the world, the traditional phone system is miraculous enough. Even more wondrous is the array of services available through new telecommunications technologies such as cellular networks.

  • Transportation: You can get there from here, thanks to automotive engineering, petroleum drilling and refining, satellite navigation, and a road system that is fast, safe, and goes almost everywhere.

  • Water and power: Your house would be dark and bleak without connections to infrastructure systems that supply fresh water, dispose of wastewater, and furnish a power source—electricity—that provides illumination and animates most of your household appliances.

All of us use these technologies, and knowing how they work empowers us in major ways. Anyone who owns a home or is in the market for one benefits enormously from understanding how it is constructed and how the roof, insulation, plumbing, wiring, heating, and cooling systems are integrated into the building. Anyone who’s buying a car or needs to get one fixed can rest easier knowing how spark plugs, transmissions, tires, and brakes do their jobs.

And because the development and use of everyday technologies—from solar cells to cell towers—are often strongly influenced by public policy, understanding everyday engineering helps us make more informed decisions about the kinds of policy initiatives we wish to support.

Plus, the achievements of everyday engineering are worth admiring for their own sake. They represent some of the most inspired thinking of our civilization, and by looking under the hood to see how these technologies operate, you learn about basic scientific principles that apply throughout the world.

For these reasons and more, Everyday Engineering: Understanding the Marvels of Daily Life is an indispensable guide to the way things work in the world around you. Conducting this eye-opening tour is Professor Stephen Ressler of the United States Military Academy at West Point, an award-winning civil engineer and a nationally honored leader in engineering education.

In 36 half-hour lectures, richly illustrated with instructive physical models, computer animations, and graphics designed by Professor Ressler himself, you start by learning how a house is put together with all its subsystems. Then you move outside to trace the origin and route of water, power, and telecommunications networks. Finally, you hit the road to discover how automobiles function and how roads and highway bridges are engineered.

Along the way, Everyday Engineering investigates power plants, dams, aqueducts, railroads, communication satellites, home energy efficiency, simple machines around the house, recycling, and many other topics. No background in science or engineering is needed to follow this riveting presentation, which gives you deep insight into the underlying simplicity of the complex systems that enhance our lives.

See Familiar Things with New Eyes

As an example of how Professor Ressler can turn everyday devices into a fascinating lesson in creative problem solving, he devotes an entire lecture to the faucet, showing how the problem of delivering hot and cold water into a sink has elicited a host of solutions—some practical, others not. We are all familiar with automatic faucets in public restrooms that defeat our initial attempts to get them to work, or two-handled faucets that lack clues about which way to turn the knobs. You’ll be surprised by the subtlety of the problem and the wide array of approaches, which is typical for issues of user-centered design.

Other intriguing insights you’ll get from the course include:

  • The genius of building codes: Houses are such complex technological entities that you might think an engineer would be needed to design each one. But building codes effectively serve as a substitute for an engineer’s judgment, specifying construction methods at a high level of detail.

  • Gone with the wind: Compared to traditional masonry and timber-framed dwellings, modern light wood frame houses are so light and sturdy that it’s possible to imagine one being lifted from its foundation by the wind and transported intact far away—as happened in the classic 1939 movie The Wizard of Oz!

  • Save money and go green: Professor Ressler has plenty of advice for enhancing the energy efficiency of your home. People in the market for a new home should know about the latest trend in efficiency: the net-zero-energy house. Thanks to passive-solar design and in-home renewable energy sources, it requires no net input of energy over the course of a year.

  • Talking torque: The key to understanding how power is transmitted from an engine to the wheels of a car is the concept of torque—the tendency of a force to cause rotation—which helps explain power, acceleration, speed, fuel economy, and why internal combustion vehicles require multiple gears.

A Field Guide to Everyday Technology

Professor Ressler notes that his approach to Everyday Engineering is inspired by a very familiar genre: “Many people, myself included, find great satisfaction in identifying stars in the night sky, in distinguishing a red-tailed hawk from a turkey vulture,” he says. “The technological world is certainly no less interesting, but lacks the guidebooks available to stargazers and birdwatchers. I hope this course will provide just such a resource by serving as a sort of field guide to everyday technology.”

With this outlook and the enlightening information in these lectures, you will be able to look at the world around you and decipher mysteries such as these:

  • The unassuming utility pole: Next time you’re stuck in traffic, savor the complexity of the common utility pole, which typically has three high-voltage power distribution feeders, three insulators, and a neutral wire; and might also carry transformers, circuit breakers, low-voltage distribution lines, and telecommunications cables.

  • Ballet of the bulldozers, scrapers, and dump trucks: Ever wonder why so many kinds of earthmoving machines are needed at a highway construction site? They’re following precisely choreographed instructions on a mass diagram, with each type of vehicle moving soil according to its optimum operating range.

  • The power outage puzzle: Sometimes electrical power goes out and then seconds later returns. What’s usually happening is that a specialized circuit breaker, called a recloser, has tripped in response to a short circuit, such as a tree falling on a power line. The device automatically restores power if the fault has cleared.

  • Mystery of the missing web page: Web pages can get stuck in the process of loading, while you stare at the spinning wait cursor on the screen. The problem is usually heavy Internet traffic, which exceeds the storage capacity of a router somewhere in the network. The overflow packets of information that comprise the web page are sometimes simply lost.

One of the pleasures of Everyday Engineering is the meticulous care that Dr. Ressler has taken in preparing over 150 working models that explain everything from an arch dam to the universal joint in a car’s drive shaft. He also delights in the unexpected: in the last lecture he switches gears by examining a famous case when technology failed during the Great Northeast Blackout of 2003. Triggered by high electrical demand during a sweltering summer day, a short circuit due to overgrown trees, and a software bug that disabled a control room alarm system, the cascading series of breakdowns produced the worst-ever electric power blackout in North America.

This incident serves as a graduation exercise for the course. Having explored the workings of the electrical power grid in previous lectures, you’ll find that you understand the crisis in perfect detail. Indeed, you’ll be ready to apply your broad understanding of everyday engineering to any technological issue that crosses your path in the future.

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36 lectures
 |  Average 31 minutes each
  • 1
    Engineering and Technology in Your World
    Start the course by considering how engineering and technology influence your daily life—not just high-tech devices but also ordinary machines, buildings, and infrastructure that most people take for granted. In this lecture series you will learn to notice and understand these overlooked marvels. x
  • 2
    Your House as an Engineered System
    In the first of four lectures on your house as a technological system, review the eight engineered subsystems that go into modern dwellings. Then discover the miracle of building codes, which ensure that every new house is safe, constructible, and reasonably economical without involving an engineer in each design. x
  • 3
    Three Structural Systems for Load Bearing
    Examine one of the most important aspects of modern building codes: the design of a house for structural load carrying. Focus on two of the three major approaches to this crucial function: bearing wall construction and heavy timber frame construction. Both have been used for thousands of years. x
  • 4
    Platform-Framed Housing Construction
    Turn to the third major technique for building a house: platform-framed construction, which is a flexible arrangement of lightweight modular floor platforms, wall panels, and roof trusses. This efficient approach has been widely used in the U.S. for over a century. x
  • 5
    The Building Envelope
    Now that your house is framed, it needs a building envelope that can shed rainwater and melting snow, and also keep precipitation from entering through the foundation. Learn about the five integrated layers of protection: shingles and cladding, drainage plane, insulation, vapor barrier, and drywall. x
  • 6
    Site Design and Storm Runoff
    What happens to the precipitation that falls on your house, your lot, and your neighbors’ properties? Study the problem of site design, focusing on how storm runoff is directed away from homes and returned to a natural watercourse, without causing flooding along the way. x
  • 7
    Dam, Reservoir, and Aqueduct Design
    Now consider the water that you want in your house—for drinking, cooking, and bathing. Examine the technologies that collect water from a watershed and transport it to a municipality. Explore different designs for dams, and marvel at the Catskill Aqueduct that carries fresh water to New York City. x
  • 8
    Water Treatment and Distribution
    Learn how raw water from nature is treated to make it safe for drinking. Then trace the distribution system that supplies water under pressure to users. Professor Ressler demonstrates two crucial technologies in this system: the flocculation chamber and the water tower. x
  • 9
    Wastewater Disposal and Treatment
    What happens to the 150 gallons of water that the average person uses and then sends down the drain each day? Delve into wastewater disposal and treatment. Among the details you investigate are the S-shaped trap in a waste pipe and that most ingenious of plumbing fixtures: the toilet. x
  • 10
    Fossil Fuels: Coal, Oil, and Natural Gas
    Coal, oil, and natural gas power the vast majority of electrical generating plants in use today. Learn how fossil fuels are extracted from the earth and how new technologies such as longwall mining and fracking have revolutionized the industry. Also examine some of the environmental drawbacks of these endeavors. x
  • 11
    Power Generation from Coal
    Focus on the dominant source of electricity in the U.S. today: coal. Begin by reviewing concepts from thermodynamics that explain how power plants work. Then follow the processes that turn a hopper full of coal into abundant electrical power, extracting the maximum amount of energy along the way. x
  • 12
    Oil, Gas, and Nuclear Power
    Probe the tradeoffs of oil, natural gas, and nuclear fission for generating electrical power. For example, natural gas is plentiful and flexible, but it involves fracking and produces carbon dioxide emissions. By contrast, nuclear power produces essentially zero emissions but poses potentially catastrophic safety risks. x
  • 13
    Renewable Sources of Electricity
    Survey the three most important sources of renewable energy: hydropower, wind power, and solar power. Look at the inner workings of hydroelectric dams, wind turbines, solar-thermal power stations, and photovoltaic arrays to see how each takes a renewable energy source and converts it into electricity. x
  • 14
    Electrical Power Transmission: The Grid
    Study the technological marvel called the grid—the system that transmits electricity from its point of generation to users. Learn why electrical transmission lines come in threes, why AC power is used instead of DC, and the reason transmission voltages are so high. x
  • 15
    Electrical Power Distribution
    Trace the distribution of electrical power from a substation to your home. Begin with the transformer, discovering how this crucial device functions. By the end of this lecture, you will be able to read a utility pole like a book, analyzing the different services attached to these ubiquitous structures. x
  • 16
    Everyday Thermodynamics: Refrigeration
    Unravel the secret of refrigeration by focusing on the connection between heat, temperature, work, and energy. Then see how these thermodynamic concepts apply to the vapor-compression cycle in your refrigerator or air conditioner. Discover that a heat pump operates the same way. x
  • 17
    Heating, Ventilating, and Air-Conditioning
    Explore heating, ventilating, and air conditioning—known as HVAC. Begin by learning how thermostats regulate temperature. Then review how heat transfer takes place, and investigate the pros and cons of heating with a furnace, boiler, and heat pump. See how air conditioning integrates into each of these systems. x
  • 18
    Home Energy Efficiency
    Delve into the green building movement, which promotes structures that use natural resources more efficiently while reducing environmental impact. Focus on minimizing energy consumption through a well-insulated, airtight building envelope; energy-efficient windows and doors; and energy-efficient HVAC systems and appliances. x
  • 19
    Passive Solar and Net-Zero-Energy Homes
    How much energy can you save with a properly designed house? Would you believe all of it? Trace the trend in passive solar and net-zero-energy homes that are engineered to stay comfortable year-round by exploiting sunlight in winter and shielding against it in summer, with minimal operating costs. x
  • 20
    The Plain Old Telephone Service
    Begin the first of four lectures on telecommunications technology by tracking the landline telephone system, known in the trade as “plain old telephone service.” Follow the pair of copper wires from your landline phone to the multi-pair cables strung from power poles to the all-important local exchange and beyond. x
  • 21
    The Global Telecommunications Network
    Investigate the beauty and complexity of the public switched telephone network (PSTN). Optimized for transmission of the human voice, it comprises a vast array of conventional phone lines, fiber-optic cables, microwave links, and other media. Trace its evolution to the remarkable system in use today. x
  • 22
    Cellular Phone Technology
    Why is cell phone service sometimes so unpredictable? Get inside the cellular network to learn how clever engineering makes a surprisingly large number of two-way conversations possible over a very narrow broadcast spectrum. Also see how the system leads to dead spots, dropped calls, and other familiar cell phone hassles. x
  • 23
    Satellites and Satellite Communications
    Take wireless communications to a higher level: space. First master the rudiments of rockets, orbits, and satellite operations. Then focus on commercial satellite services such as television, radio, Internet, telephone, and navigation. Calculate the ideal orbit for communications satellites, and investigate the workings of the Global Positioning System. x
  • 24
    Simple Machines around the House
    Nothing embodies everyday engineering like simple machines—the basic mechanical devices used for thousands of years that we rely on more than we may realize. Probe the wonders of the inclined plane, screw, wedge, lever, wheel-and-axle, and pulley, and ponder their myriad applications. x
  • 25
    User-Centered Design
    Using the faucet as an example, study the bewildering number of ways that hot and cold water can be delivered into a sink, reflecting the challenges of designing everyday things. Along the way, consider the principles that go into a successful design: affordances, signifiers, mapping, constraints, and feedback. x
  • 26
    The Internal Combustion Engine
    Begin the first of four lectures on automotive engineering by exploring that marvel of mechanical sophistication: the internal combustion engine. Professor Ressler uses homebuilt models to demonstrate the ingenious design of the four-stroke power cycle and how it works in perfect synchrony with a host of other engine sub-systems. x
  • 27
    Torque, Power, and Transmission
    Trace the path of mechanical power from pistons to the engine crankshaft, then through the flywheel and clutch assembly to the transmission gearbox. Focus on the relationships between torque, rotational speed, and power, discovering the reason that transmissions require multiple gear ratios. x
  • 28
    The Drivetrain
    Follow the transfer of automotive power from the gearbox through the driveshaft to the differential and drive-wheels. Study working models of the universal joint and differential. Also explore the design of front-wheel drive, and peer inside an automatic transmission to expose the miracle of its smooth operation. x
  • 29
    Suspension, Steering, and Braking
    Conclude your survey of automotive engineering by studying the three systems that control a vehicle: suspension, steering, and braking. Begin with the technology that’s vital to all three: your tires. Close by analyzing the antilock braking system (ABS), learning how it works and how it knows when to engage. x
  • 30
    Highway Engineering
    Step into the work boots of a highway engineer, tasked with designing a freeway across hilly terrain to connect two other highways. Discover that features of a safe road that you take for granted—constant-radius curves, gentle grade, sturdy construction, and a well-drained surface—require detailed planning. x
  • 31
    Traffic Engineering
    Traffic engineers help to ensure the safe and efficient movement of vehicles and pedestrians within a road system. Focus on their approach to intersection design, examining the many factors that go into determining whether you’re faced with a traffic signal, an overpass, a flyover ramp, or some other means of traffic control. x
  • 32
    Everyday Bridges
    Find that everyday highway overpass bridges are more interesting than they appear. These ubiquitous structures deserve to be admired for their simplicity and practicality. Plunge into the principles of multi-girder spans, and learn that new construction techniques make highway bridges more efficient and elegant than ever. x
  • 33
    Tunnel Engineering
    Delve into tunnel engineering, a discipline every bit as impressive as bridge building, only less visible. Consider the challenges presented by the type of soil or rock being excavated for a tunnel, marvel at the work of mammoth tunnel boring machines, and weigh the tradeoffs between tunnels versus bridges. x
  • 34
    The Railroad
    Ride the rails to learn why rail transportation continues to thrive, two centuries after the modern railroad was introduced. Trace the origin of the standard rail gauge used in the U.S., probe the forces a locomotive must overcome to get rolling and then stop, and chart the rise of a revolutionary way of handling cargo: the intermodal container. x
  • 35
    Solid Waste Disposal and Recycling
    Compare the three main methods of dealing with the 700,000 tons of solid waste generated every day in the U.S.: landfill, incineration, and recycling. Explore the distinction between recycling, which is practical with many metals, and down-cycling, which is the fate of most plastics. x
  • 36
    The Future: Engineering for Sustainability
    Look beyond recycling to the higher goal of sustainability. Then close the course by considering the Great Northeast Blackout of 2003. Caused by inadequately pruned trees and a software bug, this cascading sequence of infrastructure failures holds important lessons for the world of everyday engineering. x

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Your professor

Stephen Ressler

About Your Professor

Stephen Ressler, Ph.D.
United States Military Academy, West Point
Dr. Stephen Ressler is Professor Emeritus from the United States Military Academy at West Point and a Distinguished Member of the American Society of Civil Engineers (ASCE). A registered Professional Engineer in Virginia, he earned a B.S. from West Point and an M.S. and a Ph.D. in Civil Engineering from Lehigh University, as well as a Master of Strategic Studies from the U.S. Army War College. Professor Ressler's papers on...
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Everyday Engineering: Understanding the Marvels of Daily Life is rated 4.9 out of 5 by 208.
Rated 5 out of 5 by from Absolutely fantastic course! Without a doubt, this may well be the best produced, best presented, and most useful course I have ever taken. Prof. Ressler is simply outstanding -- a masterful communicator of complicated information and as user-friendly as they come -- and the course content is simply extraordinary, loaded as it is with marvelous graphics, demonstrations, diagrams, photographs, and videos that make understanding and retention easy and fun. The course is suitable for all levels of experience and expertise. The easiest "5" I've ever given!
Date published: 2017-08-31
Rated 5 out of 5 by from Clear, well organized, informed and informing All the above and entertaining as well. What's not to love?
Date published: 2017-08-28
Rated 5 out of 5 by from Best course ever, for me This was a really wonderful course, delivered excellently, including well-done short videos and clever wooden models to explain principles. I didn't want the series to end! The part about automatic transmissions was the only part that went a bit too fast for me - all the rest was well paced and superbly done. Video is essential for this course.
Date published: 2017-08-19
Rated 5 out of 5 by from One of the very best I have been a GC devotee for many years (taken perhaps 40 courses here). This is truly one of the very best. I am both an engineer and a Business Development director and while I know many of the very interesting things presented, I still learned an amazing amount. Also, I was particularly pleased by the way the material was presented in an active and engaging way. I would suggest this course for anyone over the age of 12 who has even the slightest interest in how things work. Kudos to The Great Courses and especially Dr. Ressler for preparing and presenting such masterful work.
Date published: 2017-08-18
Rated 5 out of 5 by from Every lecture a knockout! I'm a Great Courses regular. I've purchased many of them; but mostly, I borrow them from my local library. After borrowing and completing this lecture series, I immediately purchased a copy, one I intend to give my similarly curious son as a Christmas present. He's going to love it. "Everyday Engineering..." is clearly the best of those many Teaching Company courses I've yet encountered. Professor Ressler has created a series of thirty-six outstanding lectures, each packed with easy-to-understand information that will make anyone a better homeowner, car owner, motorist, and energy consumer. In addition, that same person will become much better informed on many of our tough local and national issues, and about their inevitable trade-offs--important issues that currently face us and will continue to face us in the Twenty-first Century. The lectures have been enhanced with beautifully illustrative demonstration models, computer graphics, and innovative explanations that make difficult concepts easier to understand and to remember. I am quite familiar with many of the topics covered, but learned new information and new ways of looking at a lot of things I thought I already knew quite a bit about. I also encountered some new and unfamiliar topics and learned that many things I'd simply taken for granted are far more complicated and interesting than I'd have ever imagined. I learned so much in every lecture! One interesting side-effect of the course has been that I'm now much more observant of the infrastructure in my community and other communities I visit or travel through. I can't recommend this course highly enough. It's a great value.
Date published: 2017-07-26
Rated 5 out of 5 by from COULD HE BE THE BEST, COULD THIS BE THE BEST? I am the proud owner of, by now, at least 50 Great Courses in DVD form. Ressler must be one of the top three teachers in my collection. Though an engineer (please don’t take offence, I am thinking in contradistinction to a philologist and of course I am not forgetting what I have learnt from another Great Course, i.e., that 2 Presidents of the United States were engineers!), though an engineer, I say, Professor Ressler is wonderfully articulate, his speech is so highly educated yet crystal-clear and highly meaningful. Maybe he reads out from notes, even so one can follow easily and he sounds so very natural, matter-of-fact though not at all dry but very pleasant to the ear and to the mind—he obviously possesses excellent oratorical and acting skills! As an engineer, Ressler is highly organized and disciplined in his teaching and he knows how to give fully satisfying step-wise explanations while economizing on time and avoiding repetition. This, I think, is the crux, his ability to explain is unique. Let us not lose sight of the fact, however, that the subject helps too, this is not philosophy, this is not a field for controversy or interpretation! One instrument, in particular, which he uses expertly in order to perfect his explanations, is demonstrations: they are amazing and serve to prove all the arguments with finality! Besides the course itself is really cleverly designed, the overall inspiration behind it is so enticing: Ressler takes everyday unremarkable objects, e.g., a modest house (and not the Antikythera mechanism!) and guides us so that we can see them in a light which turns them into marvels. Most viewers should be able to appreciate this vision, even those with extremely limited (i.e., less than high-school) knowledge of physics and definitely no math is needed. One can acquire practical knowledge and insight from this course so as to realistically confront one’s car mechanic or the various technicians engaged in restoration, repair or maintenance of residences. One can alternatively view it as a discussion of numerous applications of physics albeit with minimal recourse to the theories of physics. Other sciences such as geology, meteorology and economics come into it too. Youngsters can view the course as a means to peer into the job descriptions of various engineering specialties thus helping them to decide what career to follow! Clearly lectures 20-23 which deal with telecommunications can be set apart as the weaker part of the course—here it seems that technology has advanced so much that its workings cannot be explained in simple …non-technical! terms, as Ressler himself seems to admit. Finally, I am afraid find it quite difficult to reach a conclusion whether this is the best Great Course because most (though not all) of what I have seen is so good, each Great Course being in a class of its own, each satisfying curiosity from a different angle, how could one compare aromatic apples with succulent oranges, most are of such high quality!
Date published: 2017-07-20
Rated 3 out of 5 by from Everyday Engineering: Understanding the Marvels of Not enough visual presentations and explanations of same.
Date published: 2017-07-15
Rated 5 out of 5 by from Outstanding course which explains the systems that we use in everyday life. I learned a lot, and particularly appreciated the sections dealing with building construction and design and the automobile and feel a lot more comfortable talking to repairmen, mechanics and repairmen when things don't. It also makes me appreciate the complexity behind the seemingly systems which we take for granted (until they're not there) like electricity, communications and waste disposal. The professor has obviously tailored this course for the online audience rather than the classroom, and his demonstrations make difficult concepts almost intuitive. I wish I had learned this material in high school!
Date published: 2017-07-14
Rated 5 out of 5 by from Fascinating Topic, Excellent & Engaging Professor Loved, loved, loved this course! The professor is just beyond excellent at making the concepts easy to understand. His models are useful. This course takes you through everything about everyday life, from electricity to water to housing to transportation in a very clear method. We originally bought this set for my daughter, but my engineering hubby and I had to watch every lecture, too, it was so fascinating.
Date published: 2017-07-13
Rated 5 out of 5 by from Another Great Course Dr. Ressler obviously spent a great deal of time and effort putting this course together. The sheer scale of the course proves that his energy and enthusiasm are limitless. His use of models and computer graphics are particularly effective. Dr. Ressler is a great teacher, who's also a very nice guy. His enthusiasm is infectious. His other courses, "Understanding the World's Greatest Structures," and "Understanding Greek and Roman Technology", are both worth watching. I hope he finds the time and energy to put other courses together.
Date published: 2017-07-09
Rated 5 out of 5 by from Although I had been expecting lectures dealing with modern gadgets, Everyday Engineering turned out to be a mind-blowing revelation of all the scientific engineering that is under my nose each day. I’ve been given fresh sight. I have no background in engineering but Prof Ressler’s cheerful, energetic and highly articulate presentation made it all feel within my grasp. Indeed, I look forward to having the time to watch the course over again while pausing to read the accompanying text. The quality of the accompanying graphics and models is spectular, one of the best I have seen in the Teaching Co courses.
Date published: 2017-07-06
Rated 5 out of 5 by from Great interesting course Review of Great Course Everyday Engineering #1116 Very good course. Published 2015, so is up to date. Interesting topics, Dr. Ressler clearly is very knowledgeable in almost all topics. Presentation is very good, looks at camera, no “um” “ah”, etc. straight talk. Very good demonstrations of the main concepts, clearly relevant to each topic. I am 89 years old, was DIY guy, familiar with most of the topics, but still learned something new on each topic covered. Explanations clear & meaning full. Highly recommend.
Date published: 2017-06-20
Rated 5 out of 5 by from Love learning! I'm Nathaniel from PA, I'm 16 and I really enjoy learning exactly what is being taught in this course! I bought this course because I watched the course on Understanding Greek and Roman Technology by Stephen Ressler and absolutely loved it. I've been homeschooled my entire life so it's great to find something like this to learn exactly what I love. The way that the course is taught is really great and Stephen Ressler does a fantastic job teaching it. :)
Date published: 2017-05-20
Rated 5 out of 5 by from Everyday Engineering is top notch instruction I highly recommend this set of courses for everyone, adults, students, and budding students, who have a curiosity about how things in everyday life work. Many answers are given in technical, but easy to grasp discussions. It is also great for students in many specialties, not just engineering. I wish I had this when I was in school.
Date published: 2017-05-18
Rated 5 out of 5 by from Very enjoyable! We buy Great Courses to supplement our homeschool curriculum. We usually stick to basic math and science courses but really liked the description of this course and decided to try it. It was all that it promised and more. It is our favorite Great Course so far! Our elementary school aged kids enjoyed watching it along with our high schoolers. The demonstrations are great! The explanations are great! It would be hard to pick a favorite lecture. You won't become an engineer by watching this series, but you'll definitely gain a greater understanding and appreciation of all of the amazing engineering you usually take for granted!
Date published: 2017-05-11
Rated 5 out of 5 by from Highly recommend this course. This course provides an excellent format in understanding the workings of every day technological systems. Professor Ressler is an engaging presenter whose diligence is apparent throughout the lecture series. His explanations, models and just enough math make the mechanics and the science of modern day technology understandable. This is the second course taught by him that I have purchased and I'm very satisfied with what I have gained with both.
Date published: 2017-05-05
Rated 5 out of 5 by from Everyday Engineering: Understanding the Marvels of Enjoyed this so much IU passed the DVD on to another.
Date published: 2017-04-30
Rated 5 out of 5 by from Easily Understandable! I am thoroughly thrilled with this course. Not only is each and every lecture just plain interesting, but, since the instructor uses well-made working models of the processes upon which he is lecturing, in addition to models describing the principals of physics on which they operate, the engineering behind the processes is rendered easily understandable.
Date published: 2017-04-26
Rated 5 out of 5 by from Fun course that provides insights into some of the engineered systems that help form the basis for modern life. Logical development of topics, presented succintly. The instructor's enthusiam is contagious and his communications skills are superb. Subject along the lines of "How it's Made" or "Modern Marvels." Anyone interested in those television shows will likely gain from "Everyday Engineering."
Date published: 2017-04-19
Rated 5 out of 5 by from Deserves Its Top Rating A few months ago, the Great Courses sent a flyer listing those courses that were "top rated" by viewers and students of the Great Courses. Everyday Engineering was one of them. Do you ever wonder how we get clean water to a tap or how electricity gets to your house? How about your cell phone? The in and outs of your car? It's all here. I'm not going to write or critique in detail, except to say this course is well worth the money. It is a purchase I do not regret.
Date published: 2017-04-12
Rated 5 out of 5 by from Great Content & wonderful models and graphics! This is the third course by Dr Ressler that we have purchased. The enthusiastic presentations, models and graphics expertly reveal the marvels of engineering in our daily lives. As a retired engineer, I thoroughly enjoyed Dr Ressler's interesting presentations. My wife, a non-technical person, enjoys his lectures because his models and graphics, along with his insightful descriptions, make it easy for her to finally understand these engineering systems that use use daily. I am certain that if Dr Ressler creates a fourth course, we will purchase that one, too.
Date published: 2017-04-10
Rated 5 out of 5 by from Clear presentation Excellent teacher, who clearly explains our complex everyday technology.
Date published: 2017-04-10
Rated 5 out of 5 by from Another Ressler Success This is Ressler's 3rd course. I've watched all 3. The greatest is Ancient Technology, which was one of the finest learning experiences I've ever had. This course covers many of the major technologies now in use, except for the itnernet. As usual Ressler is enthusiastic and careful in explaining technologies, using diagrams, demonstrations, and computer simulations. Two of his great strengths are his understanding of engineering practice, including professional standards, and his use of simple but deep scientific principles to explain the engineering behind devices and systems. There is something beautiful when we see how, say, the design of a house is governed by a basic principle of physics. I have a few minor criticisms, but my overall rating of the course is extremely high. First, the four classes on automotive technology were especially difficult to follow (for me), above all the two on the transmission and the drivetrain. This was due, I think, to Ressler's desire to put a lot of material into a few classes. Expanding this material by one class would have helped me a lot, but maybe I'm just limited in my ability to understand gearing. Second, Ressler often puts equations in the videos but not in the course book. It makes more sense to me to put them in the book rather than in the lectures, since they flash by in the video, but they can be studied at the student's own pace in the book. Ressler is generally a great teacher in that he's given a lot of thought into how to present complex material to beginners, but in this instance I think he erred in presenting the more demanding (but important) material in a less easily understood way. Finally, Ressler has a great interest in the history of technology (see his first 2 Great Courses) but there's very little of this in the present course. In his defense we can say this; there's a tremendous amount of material in these 36 classes, so he could only do so much.
Date published: 2017-04-01
Rated 5 out of 5 by from Impeccable delivery Dr. Ressler's lectures are spotless perfections. His delivery is so natural and unerring that you almost believe he rehearsed every word. He covers the material in logical order with precision using occasional experiments and demonstrations and plenty of visual. He covers home technology, then shows how they connect to public utilities. You can't not like this course.
Date published: 2017-03-30
Rated 5 out of 5 by from Marvelous! A fantastic collection of civil engineering tutorials. Packed with dramatized facts and imaginative illustrations of a wide variety of engineering aspects, starting with understanding the engineering hidden in your home, then to your neighborhood, and even to outer space, at least to accommodate a discussion of satellite communications. Truly takes you from the pavement to the stars (well almost)! Wonderfully conceptualized and presented! A must-see for any engineer and anyone else interested in knowing how much of their world works!!
Date published: 2017-03-29
Rated 5 out of 5 by from Know Where Your Conveniences Come From My wife and I just finished this course. We enjoyed this one especially because both of us could understand all of it, and it relates so much to things we use and do everyday. The demonstrations are wonderful. I really wish I had seen this before I bought my house; everyone buying one should see this. The lectures on the phone networks and electricity also were very illuminating. A great course indeed. Buy the video.
Date published: 2017-03-27
Rated 5 out of 5 by from Well done, very comprehensive I am very happy with this series. The teacher is very well prepared and presents the information thoroughly.
Date published: 2017-03-24
Rated 5 out of 5 by from Terrific overview I learned so much! I hesitate to include anything negative as he is one of the very best. In the interest of refinement I will add two small points. I am a professional auto technician of 42 years expierence and noticed the diagram of the now obsolete coil / point system. Note that spark plugs fire when the points open, not when they close. This is because the high voltage is generated by the collapse of the magnetic field in the coil. The other small item is that crankcase oil becomes dirty almost exclusively due to combustion blow by not wear. All in all it is one of TC's very best programs!
Date published: 2017-03-20
Rated 5 out of 5 by from Why I Watch Great Courses This is why I watch Great Courses. I am not well-versed in engineering, and I was not a science major. This professor, though, really brings the course to life and is extremely dynamic. This course could very easily be boring, but, instead, the professor makes this an exciting course (at least as exciting as a lecture on engineering can be). I particularly like his models, which help make the concepts understandable for ignorant folks such as myself. He made me realize the engineering detail that goes into the world around me. This course provides two things: 1. a better understanding of the everyday world; and 2. a better appreciation for the intricate details that go into everyday products. This is worth the time.
Date published: 2017-02-28
Rated 4 out of 5 by from Excellent computer graphics An interesting set of topics, well presented but made great by the extensive use of computer graphics and graphic animation. Without this visualization many of the topics covered would be difficult if not impossible to understand even if the instructor’s presentation is excellent (which it mostly is in this course.) The instructor also adds a few desktop demonstrations using models. This helps. If you are interested in ‘how things work’ this is a good place to start your studies.
Date published: 2017-02-20
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