Three Structural Systems for Load Bearing

Three Structural Systems for Load Bearing
Show More

Related videos

Your House as an Engineered System
Episode 2 of Everyday Engineering
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.
Loads and Structural Systems
Structures are heavily influenced by the loads they're designed to carry. First, take a closer look at the most important loads structures must resist, including traffic loads and earthquake loads. Then, using the historic iron building at Watervliet Arsenal in New York, analyze how loads are actually transmitted through structural…
Electrum: Science As Art
Lightning has fascinated man from the earliest times, inspiring both awe and fear. At the turn of the century, scientist Nikola Tesla developed his Tesla coil: an electrical current generator that he envisioned as a potential power source, shooting lightning into the air to be pulled down by energy customers…
Heating, Ventilating, and Air-Conditioning
Episode 17 of Everyday Engineering
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.
Home Energy Efficiency
Episode 18 of Everyday Engineering
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.
Passive Solar and Net-Zero-Energy Homes
Episode 19 of Everyday Engineering
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.
The Plain Old Telephone Service
Episode 20 of Everyday Engineering
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.
The Global Telecommunications Network
Episode 21 of Everyday Engineering
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. Investigate the beauty and complexity…
Cellular Phone Technology
Episode 22 of Everyday Engineering
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.
Satellites and Satellite Communications
Episode 23 of Everyday Engineering
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.
Simple Machines around the House
Episode 24 of Everyday Engineering
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.
User-Centered Design
Episode 25 of Everyday Engineering
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.