on a roller coaster ride at an amusement park on MARS, a car travels from 7.6...

You are testing a new amusement park roller coaster with an empty car with a mass...

You are testing a new amusement park roller coaster with an empty car with a mass of 120 kg . One part of the track is a vertical loop with a radius of 12.0 m . At the bottom of the loop (point A) the car has a speed of 25.0 m/s and at the top of the loop (point B) it has speed of 8.00 m/s . As the car rolls from point A to point B, how much...

You are upgrading an amusement park ride by adding a circular loop to an existing roller...

You are upgrading an amusement park ride by adding a circular loop to an existing roller coaster ride. The first hill for the existing roller coaster is 55 m tall, and you are to build, right at the bottom of this hill, the tallest loop possible without having the cars fall out of the track or the passengers fall out of the cars. The roller coaster starts from rest at the top of the hill. What is the maximum radius...

A new roller coaster at an amusement park requires individuals to be at least​ 4' 8"...

A new roller coaster at an amusement park requires individuals to be at least​ 4' 8" ​(56 ​inches) tall to ride. It is estimated that the heights of​ 10-year-old boys are normally distributed with mu equals μ=54.5 inches and σ=4 inches. a. What proportion of​ 10-year-old boys is tall enough to ride the​ coaster? b. A smaller coaster has a height requirement of 50 inches to ride. What proportion of​ 10-year-old boys is tall enough to ride this​ coaster? c....

A roller coaster car tops the highest point of the ride at 5 ft/s. The highest...

A roller coaster car tops the highest point of the ride at 5 ft/s. The highest point of the ride is 100 feet above the ground. What is the velocity of the car at 10 feet above the ground. Use Conservation of Mechanical energy to solve this problem. Let ground be the reference level for the gravitational potential energy Round answer to 2 decimal places.Failure to follow directions will result in points lost. The car is traveling at _____________ m...

In order to make the subsequent loop-de-loop on the ride, a 164 kg roller coaster car...

In order to make the subsequent loop-de-loop on the ride, a 164 kg roller coaster car needs to reach a final speed of 23.7 m/s at the bottom of a hill. If the car starts from rest at the top of the hill, how high must the hill be (in m)?

At an amusement park there is a rollercoaster that travels straight up 80 meters and once...

At an amusement park there is a rollercoaster that travels straight up 80 meters and once it reaches the top drops the riders straight back down. On the way up it has a maximum speed of 6.0 m/s. It’s acceleration and deceleration have a magnitude of 1.0 m/s2. (round your answers to three significant figures) Question Answer ✔  How far does the ride travel upward before reaching full speed from rest? 18.0 ✘  How long does it take to get to the...

A watermelon is dropped from an amusement park ride that is moving straight downwards at a...

A watermelon is dropped from an amusement park ride that is moving straight downwards at a constant speed of 1.6 m/s. a. Sketch a position vs. time graph - put the watermelon and the amusement park ride on the same graph. b. Sketch a velocity vs. time graph. Once again, put both on this graph. c. After 1.5 sec what is the speed of the watermelon? d. After 1.5 sec how far is the watermelon below the amusement park ride?

The car of an amusement park ride with mass m=90 kg slides along a track that...

The car of an amusement park ride with mass m=90 kg slides along a track that we can consider as frictionless. Initially it is at position A at a height 11.6 m above the ground and moving with speed 4.0 m/s. It moves through a valley and over a second hill at position B at a height 7.3 m above the ground. Find the speed of the car when it is at position B.

Suppose a roller-coaster car is moving 31.3 [m/s] at the bottom of the first hill, and...

Suppose a roller-coaster car is moving 31.3 [m/s] at the bottom of the first hill, and has an effective (rolling) friction coefficient 0.01 as it moves along the track. Predict how fast it would be at the top of the next hill, that is 30 [m] higher and 110 [m] farther along the track. This is on Earth, so use  g = 9.81 [N/kg]

1. Starting from rest, it took you 12 seconds to accelerate your car to 24 m/s...

1. Starting from rest, it took you 12 seconds to accelerate your car to 24 m/s at a constant acceleration. Find your acceleration. 2.A prototype car starts from rest and accelerates at a constant rate to 60 m/s in 5.1 seconds. How much distance did the car travel during the 5.1-second accelerated motion? 3. A speeding driver noticed a police car parked about 443 m in from of him on the side of the road and reduced his speed at...