A-roller-coaster-has-a-vertical-loop-with-radius-of-15m -

At the top of the loop, two main forces are at play: gravity (

v=9.8⋅15v equals the square root of 9.8 center dot 15 end-root v=147v equals the square root of 147 end-root v≈12.12 m/sv is approximately equal to 12.12 m/s ✅ Final Result a-roller-coaster-has-a-vertical-loop-with-radius-of-15m

, the car must maintain a speed where the centripetal force at the top of the loop is at least equal to the force of gravity. The minimum speed is approximately (or about 1. Identify physical constants At the top of the loop, two main

) and the normal force from the track. For the "minimum" speed (the point where the car just stays on the track), the normal force is zero. We use: ≈is approximately equal to 2. Set up the equation For the "minimum" speed (the point where the

The centripetal acceleration must equal the acceleration due to gravity to keep the car from falling:

To find the minimum speed required for a roller coaster to successfully complete a vertical loop with a radius of

The minimum speed required for the roller coaster to stay on the track at the top of a radius loop is .