If you are riding on a Ferris wheel that is 60 feet tall and it takes 5 minutes to make a one revolution, what is your linear velocity?

diameter = 60 ft

circumference = pi D = pi(60) = 188.5 ft
so
188 ft/5 min = 37.7 ft/min

if you want miles/hour

37.7 ft/min * 60 min/hr * 1 mi/5280 ft
= .428 miles/hour

If you are riding on a Ferris wheel that is 60 feet tall and it takes 5 minutes to make a one revolution, what is your linear velocity? Can I have the answer in per second?

To find the linear velocity, we need to determine the distance traveled during one revolution of the Ferris wheel, and then divide that distance by the time taken.

First, let's find the circumference of the Ferris wheel. The circumference is equal to the distance traveled during one revolution. The formula for the circumference of a circle is C = 2πr, where r is the radius.

Since the Ferris wheel is 60 feet tall, the radius is half of that, which is 30 feet.

C = 2π(30) = 60π

Now, we know that the Ferris wheel takes 5 minutes to complete one revolution. To find the linear velocity, we need to convert the time to seconds, as the formula requires the time in seconds.

5 minutes is equal to 300 seconds (5 minutes × 60 seconds/minute = 300 seconds).

Now, we can calculate the linear velocity by dividing the circumference by the time taken:

Linear velocity = Circumference / Time taken
= (60π feet) / (300 seconds)
≈ 0.6283π feet per second

So, the linear velocity is approximately 0.6283π feet per second.