first u have to make out with it
Mass dampers and active tendon systems both mitigate structural vibrations during earthquakes by absorbing and dissipating energy. Mass dampers use large weights to counteract oscillations, shifting to counterbalance motion, while active tendon systems employ cables that adjust tension in response to building movements. Both systems enhance a building's stability and reduce the risk of damage by minimizing the impact of seismic forces. Ultimately, they serve the same purpose of improving the resilience of structures against dynamic loads.
The four pieces of technology that are designed to make buildings earthquake resistant are active tendon systems, cross braces, tuned mass dampers, and base insulators. The active tendon system uses computer sensors placed at the bottom of a building to shift the weight of large buildings as ground movement is detected. Cross braces are two diagonal beams that form an X and allow the building to withstand seismic activity. Tuned mass dampers are devices mounted in a building to reduce the amplitude of mechanical vibrations. Base insulators are pads that allow a building to be built away from the ground to give it some movement and sway when earthquakes occur.
Largest Tendon in the Human BodyIt is the Achilles Heel.
tendinous
The most common surgery is tendon lengthening to treat equinus. In this procedure, the Achilles tendon is cut and the leg is placed in a cast in a more normal position.
The last answer posted: "nothing"Well I have a WISE answer, and it's not unnecessary like "nothing".Here's the answer: The active tendon system works much like the mass damper system in the roof. Sensors notify a computer that the building is moving. Then, the computer activates devices to shift a large weight to counteract the movement.Now THAT'S what you call an answer, and that's what everyone is here for.- TheGoldDigger1.0
a long pole used to tame ferrets and chinchilas from Eurasia
Mass dampers and active tendon systems both mitigate structural vibrations during earthquakes by absorbing and dissipating energy. Mass dampers use large weights to counteract oscillations, shifting to counterbalance motion, while active tendon systems employ cables that adjust tension in response to building movements. Both systems enhance a building's stability and reduce the risk of damage by minimizing the impact of seismic forces. Ultimately, they serve the same purpose of improving the resilience of structures against dynamic loads.
Elbow flexiom
The tendon belongs to the musculoskeletal system. It is a tough band of fibrous connective tissue that connects muscles to bones, allowing for movement at joints.
An active tendon system works by using artificial tendons that can store and release energy during movement. These tendons are controlled by motors or actuators that replicate the function of muscles, allowing for more efficient and powerful movement in robotic systems. The energy stored in the tendons can be released quickly to generate rapid movements or absorb shocks to protect the system.
The four pieces of technology that are designed to make buildings earthquake resistant are active tendon systems, cross braces, tuned mass dampers, and base insulators. The active tendon system uses computer sensors placed at the bottom of a building to shift the weight of large buildings as ground movement is detected. Cross braces are two diagonal beams that form an X and allow the building to withstand seismic activity. Tuned mass dampers are devices mounted in a building to reduce the amplitude of mechanical vibrations. Base insulators are pads that allow a building to be built away from the ground to give it some movement and sway when earthquakes occur.
The tendons belong to the musculoskeletal system.
The Achilles tendon is part of the muscular system. It connects the calf muscles to the heel bone (calcaneus) and is crucial for movements such as walking, running, and jumping.
i conluded that the skelital system is ligament,tendon,cartilage,and bone
Golgi tendon organ
Tendon attaches muscle to bone. It is a fibrous connective tissue that is strong and flexible, allowing for movement and stability in the musculoskeletal system.