Circular Motion. Roller-coaster mass of car and max speed

AI Thread Summary
The discussion revolves around solving a physics problem related to a roller-coaster car's motion at two points, A and B. At point A, the car's speed is 20 m/s, and the normal force acting on it is 2.06x10^4 N, prompting the need to calculate the car's mass while considering gravitational force. For point B, the focus is on determining the maximum speed the car can achieve without losing contact with the track, emphasizing the role of gravitational force as the only vertical force acting on the car at that point. Participants suggest using free-body diagrams and relevant equations of circular motion to clarify the forces involved and solve for the required values. Understanding these concepts is crucial for accurately addressing the problem.
AStupidHippo
Messages
11
Reaction score
1

Homework Statement


A roller-coaster car speeds down a hill pas point A and then rolls up a hill past point B.
A. Car speed = 20 m/s at point A. If the track exerts a normal force on the car of 2.06x10^4N at this point, what is the mass of the car? (account for gravitational force)
B. What is the maximum speed the car can have at point B for the gravitational force to hold it on the track?
Diagram(I made it myself): http://gyazo.com/0415a6ba75f87f0229e08aab0f68fbe1

Homework Equations


Circular motion
Fc= (mv^2)/r
Fn-mg= (mv^2)/r

The Attempt at a Solution


Completely lost.
 
Physics news on Phys.org
AStupidHippo said:

Homework Statement


A roller-coaster car speeds down a hill pas point A and then rolls up a hill past point B.
A. Car speed = 20 m/s at point A. If the track exerts a normal force on the car of 2.06x10^4N at this point, what is the mass of the car? (account for gravitational force)
B. What is the maximum speed the car can have at point B for the gravitational force to hold it on the track?
Diagram(I made it myself): http://gyazo.com/0415a6ba75f87f0229e08aab0f68fbe1

Homework Equations


Circular motion
Fc= (mv^2)/r
Fn-mg= (mv^2)/r

The Attempt at a Solution


Completely lost.
I don't know why you are lost because your relevant equations are quite relevant for part A, assuming point A is at the bottom of dip. Solve for m.
 
I should have clarified.We did most of A in class, B. is where I'm struggling at most.
 
AStupidHippo said:
I should have clarified.We did most of A in class, B. is where I'm struggling at most.
Ok, got it. For part B, the question asks for the max speed at point B if the only force in the vertical direction acting on the coaster at that point on the top of the curve is the gravity (weight) force that is keeping it on the track in centripetal motion, without flying off it. You should be able to manipulate your relevant equations to solve for that speed.
 
Can you draw a free-body diagram for the cart at point B to help you out? What forces are acting on the cart?
 
I don't think I can solve this problem using fn-mg=(mv^2)/r. The Ms would just cancel out?
 
"Can you draw a free-body diagram for the cart at point B to help you out? What forces are acting on the cart?"
It would be G only. Correct?
Jason Healy said:
Can you draw a free-body diagram for the cart at point B to help you out? What forces are acting on the cart?
It would be G only, correct?
 
AStupidHippo said:
I don't think I can solve this problem using fn-mg=(mv^2)/r. The Ms would just cancel out?
if only the gravity force is acting , what is fn? Let the m's cancel if they do. Now watch your signage. Draw a free body diagram. Net centripetal force is always in direction of the centripetal acceleration,
 

Similar threads

Why does the speed change at the bottom of the loop-the-loop?
Replies
5
Views
2K
How Is the Force on a Child in a Roller Coaster Calculated?
Replies
3
Views
7K
Question Regarding Circular Motion and Normal Forces
Replies
2
Views
3K
Simulated circular motion on a roller coaster
Replies
5
Views
3K
Energy Equation for a Roller Coaster on a Full Circular Loop
Replies
2
Views
2K
Speed at the top of an elliptical roller coaster loop
Replies
4
Views
3K
Circular Motion of a Cyclist and a Car going around a bend in the road
Replies
6
Views
4K
Minimum safe height for a roller coaster
Replies
10
Views
5K
Minimum Speed for a Roller-Coaster Car to Complete a Loop without Seat Belts
Replies
12
Views
3K
Conceptual Question on acceleration and circular motion
Replies
6
Views
4K

Hot Threads

Recent Insights

Back
Top