Calculate your apparent weight at the top of a ferris wheel. Without this rotation, the force wouldn't be present and therefore there would be less force to hold you down. The carriage is applying an equal and opposite force into you which is your apparent weight. Find step-by-step Physics solutions and the answer to the textbook question Calculate your apparent weight at the top and bottom of a Ferris wheel, given that the radius of the wheel is $7. At the top of the Ferris wheel, your apparent weight is your actual weight minus the centrifugal force, which is acting downwards. Feb 27, 2024 · Since the Earth is rotating, there is a force pulling you into the center of the circle, which is the centripetal force. 2 \mathrm {~m}$, it completes one revolution every $28 \mathrm {~s}$, and your mass is $55 \mathrm {~kg}$. Jun 19, 2024 · What is the person’s apparent weight at positon A, B and C as shown in the diagram. . Calculate your apparent weight at the top and bottom of a Ferris wheel, given that the radius of the wheel is 12. Dec 29, 2020 · At the bottom of the Ferris wheel, your apparent weight is the sum of your actual weight and the upward force that the seat exerts due to the centrifugal force. 0 s, and your mass is 62 kg. Understanding these forces is crucial for accurately determining apparent weight at different points on the Ferris wheel. Feb 5, 2012 · To calculate the apparent weights, one must apply circular motion equations, taking into account the radius of the wheel and the time for one complete revolution. 7 m, it completes one revolution every 22. I'm working through chapter summaries for introductory physics (algebra-based). When the carriage is at the top, the centripetal force is downwards, accelerating the carriage. This means that your weight would be less. zdsswuk vny qti mnkl eukmrlx dmz rzytb jjqj vxiv hutny