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NoveList Plus: Find reading recommendations for all ages, series lists, and more. Great for learning about popular books and topics. Includes fiction, nonfiction and audiobook recommendations and reviews.
Author
Pub. Date
2023.
Language
English
Description
"Destry's life is dedicated to terraforming Sask-E. As part of the Environmental Rescue Team, she cares for the planet and its burgeoning eco-systems as her parents and their parents did before her. But the bright, clean future they're building comes under threat when Destry discovers a city full of people that shouldn't exist, hidden inside a massive volcano. As she uncovers more about their past, Destry begins to question the mission she's devoted...
Publisher
The Great Courses
Pub. Date
2017.
Language
English
Description
The pendulum clock was the standard for precise timekeeping for centuries. Plan and build one using your newly acquired knowledge of gears. Start by exploring why a pendulum keeps accurate time. Then calculate an appropriate pendulum length for the clock. Design the escapement mechanism and gear train, then add a suitable power source to keep the pendulum swinging.
Publisher
The Great Courses
Pub. Date
2017.
Language
English
Description
Test the limits of small, inexpensive, off-the-shelf hobby motors by building a motor-driven crane capable of lifting 100 pounds - a tall order for a motor that weighs only a few ounces! First, construct the world's simplest electric motor to gain insights about how they work. Then calculate the torque requirements for your crane, and add gears and pulleys to achieve mechanical advantage.
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
Have we reached the point where robots are becoming just like—if not better than—human beings? Probe this fascinating question by examining recent developments in artificial intelligence, robot bipedalism and dexterity, the concept of the “uncanny valley,” and three imitation games (including the classic Turing test) to determine where we stand with humanoid robots..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
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..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
Advancements in modern robotics have made robots useful, safe, reliable, easy to use, and affordable to have in our homes. So how exactly do different home robots—such as vacuum cleaners like Roomba, gutter cleaners like Looj, and lawn mowers like MowBot—adjust to the unique demands of their respective tasks?.
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
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..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
In robotics, the most important problem mobile robots must solve is how to navigate, or move with purpose, in the world. Here, learn how simultaneous localization and mapping (using internal models, beacons, and dead reckoning navigation) is the key to a robot’s autonomy in both structured and exploratory situations..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
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..
Publisher
The Great Courses
Pub. Date
2017.
Language
English
Description
Plunge into hydraulics, learning how force is transmitted from actuators to hydraulic cylinders through fluid-filled lines. Then use this knowledge to design and build a hydraulically powered mechanical arm that can grasp and manipulate a concrete block - controlled by four hand-operated syringes. Along the way, use 3D printing to fabricate several crucial parts.
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
Lane changes, off-roading, irregular traffic patterns—how do robotic cars handle it all? Find out in this lecture on the trade-offs (especially between speed and safety) involved in creating self-driving vehicles. Peer into the future of how you’re likely to get from place to place, perhaps without having to do a thing..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
Consider an approach to creating robots that’s inspired not by maps but by the simple sense-and-act behavior of animals. You’ll learn the benefits of behavior-based robotic architecture (including quicker reactions and stronger sensors), and see how simple animals including ants have inspired roboticists to build fascinating inventions..
Publisher
The Great Courses
Pub. Date
2017.
Language
English
Description
Finish your launch preparations by building a theodolite to measure the altitude of the rocket's trajectory, building a launch pad, packing the parachute, choosing a safe launch site, setting up the site, and coordinating the activities of the mission control team. Once all systems are go, conduct the countdown and press the firing button...
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
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..
Publisher
The Great Courses
Pub. Date
2017.
Language
English
Description
Test your water turbine, comparing its performance to the theoretical ideal. Next, modify it by adding a set of spur gears that will allow the machine to lift a 6-pound weight, which is well beyond its ungeared capacity. Calculate the optimum gear ratio, use laser-cutting to fabricate the gears, install them, and watch a modest stream of water lift a disproportionately heavy mass.
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
Intelligent behavior in robots is rooted in the sensors that determine how much robots know about the world around them. Professor Long demonstrates how sensors work to communicate across the electromagnetic spectrum, including through infrared (like in Roombas) and visible light (for underwater robots that communicate using flashing blue lights)..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
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..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
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..
Publisher
The Great Courses
Pub. Date
2015.
Language
English
Description
Why just watch robots when you can understand how they actually work? Deconstruct a Roomba to learn the five functional categories of parts all robots need. Then, explore a universal lesson about robotics: because robots can’t do everything well, trade-offs (such as simplicity versus maneuverability) are always involved..
Publisher
The Great Courses
Pub. Date
2017.
Language
English
Description
Get a taste of electrical engineering by designing and building an electric launch controller that will ignite your rocket engine safely. Design a circuit that meets all code requirements. Use Ohm's law to determine the number of batteries and type of resistor required. Also, get a lesson in proper soldering technique for assembling the circuit.
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