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himhim11
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i want to know some applications(idear) about circular motion in future.
Is Large Hadron Collider, LHC about circular motion?
PLZ,HELP
Is Large Hadron Collider, LHC about circular motion?
PLZ,HELP
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A wheel in cars?himhim11 said:i want to know some applications(idear) about circular motion in future.
Whovian said:First of all, what do you mean by "in the future?"
Second, yes, the LHC uses circular motion, but only because that allows it to let particles spin indefinitely without using up a ridiculous amount of space, I think.
If the LHC is a cyclotron (which I'm pretty sure it is), it uses electric fields to accelerate particles and magnetic fields to keep them moving in a circle. So it uses circular motion, but how it works doesn't really rely on it.
mfb said:A wheel in cars?
Your question is way too general to give a useful answer.
Btw.: Protons in the LHC can travel a distance which is equivalent to the distance sun<->neptune, sometimes even more than that. It would be... tricky to achieve this in a linear accelerator.
Circular motion is defined as the movement of an object along a circular path, with a constant distance from a central point. This type of motion is characterized by a continuous change in direction, but constant speed.
Circular motion is relevant to the future in various industries such as transportation, robotics, and space exploration. It is used in designing efficient and sustainable modes of transportation, creating precise and smooth movements in robots, and navigating spacecraft.
Some examples of circular motion in future technology include electric and self-driving cars, drones, and satellites. These technologies utilize circular motion for propulsion, navigation, and stability.
One of the main challenges in creating circular motion in future technology is achieving precise and consistent movements. This requires advanced control systems and precise engineering to overcome factors such as friction, air resistance, and gravitational pull.
Circular motion can be improved in the future through advancements in technology and materials. This includes more efficient and powerful motors, advanced control systems, and lightweight and durable materials for construction. Additionally, research and development in fields such as quantum mechanics and artificial intelligence could also lead to further improvements in circular motion.