Find Minimum High h and Compression X for a Cart Going Around a Loop-the-Loop

AI Thread Summary
The discussion focuses on calculating the minimum height (h) from which a cart must be released to safely negotiate a loop-the-loop of radius (R) while ignoring friction. The cart's mass is given as 500 kg, and it must maintain a normal force at the top of the loop that is at least 0.6 times its weight. The participants derive equations using conservation of energy and centripetal force principles to establish that the minimum height should be at least 0.8 times the loop's radius. The conversation emphasizes the importance of ensuring sufficient speed at the top of the loop to maintain the necessary centripetal force. The calculations and reasoning provided are aimed at solving the problem effectively.
Aki Yamaguchi
Messages
12
Reaction score
0
I'm having trouble getting started on this entire problem. I've re-drawn it, I'm given the mass of the cart, and the radius of the loop.. but I have absolutely no idea how I can calculate even the first part of this (minimum high h).

I'd greatly appreciate any help anyone could offer. Thank you!

-----

The two problems below are related to a cart of mass M = 500 kg going around a circular loop-the-loop of radius R = 15 m, as shown in the figures. Assume that friction can be ignored. Also assume that, in order for the cart to negotiate the loop safely, the normal force exerted by the track on the cart at the top of the loop must be at least equal to 0.6 times the weight of the cart. (Note: This is different from the conditions needed to "just negotiate" the loop.) You may treat the cart as a point particle.

a) For this part, the cart slides down a frictionless track before encountering the loop. What is the minimum height h above the top of the loop that the cart can be released from rest in order that it safely negotiate the loop?

b) For this part, we launch the cart horizontally along a surface at the same height as the bottom of the loop by releasing it from rest from a compressed spring with spring constant k = 10000 N/m. What is the minimum amount X that the spring must be compressed in order that the cart "safely" (as defined above) negotiate the loop?

c) When the car is descending vertically (ie at a height R above the ground) in the loop, what is its speed |v|?

d) At the bottom of the loop, on the flat part of the track, the cart must be stopped in a distance of d = 20 m. What average retarding acceleration |a| is required?
 

Attachments

  • loop.gif
    loop.gif
    1.3 KB · Views: 690
Physics news on Phys.org
Aki Yamaguchi said:
-----

The two problems below are related to a cart of mass M = 500 kg going around a circular loop-the-loop of radius R = 15 m, as shown in the figures. Assume that friction can be ignored. Also assume that, in order for the cart to negotiate the loop safely, the normal force exerted by the track on the cart at the top of the loop must be at least equal to 0.6 times the weight of the cart. (Note: This is different from the conditions needed to "just negotiate" the loop.) You may treat the cart as a point particle.

a) For this part, the cart slides down a frictionless track before encountering the loop. What is the minimum height h above the top of the loop that the cart can be released from rest in order that it safely negotiate the loop?

Let's start with this part. What do we know?
a. There is no friction. The mechanical energy is conserved. If y the cart is at the top of the loop,

0.5 mv^2=mgh

b. In the loop, the cart performs circular motion. The centripetal force, needed to this motion with speed v results as the sum of both the normal (to the loop) component of gravity and the normal force exerted by the loop. At the top both point vertically downward.

Fcp=mg+Fn=mv^2/R

c. For safety,

Fn\ge 0.6 mg

Continue...

ehild
 
I think that you have problem with minimum velocity required at the lowest point of the loop for safe negotiation of the loop. Actually if the velocity is not sufficient, the cart will leave the loop. so it must go to the heightest point and till then the normal reaction should not be zero. At heighest point the speed should be such that its weight provides the necessary centripetal force.
 
I have the same problem as Aki, what I did I set initial Energy = final Energy, since energy is conserved, so i end up having : gh = 0.5V^2 , just like what ehild had above. But how I can I get V?
 
huskydc said:
But how I can I get V?
By applying Newton's 2nd law to the cart as it passes the top of the loop. (As ehild shows.)

Once you get V (or better, once you get 1/2mV^2), then apply conservation of energy.
 
There is no friction. The mechanical energy is conserved. If y the cart is at the top of the loop,

(a) 0.5 mv^2=mgh

In the loop, the cart performs circular motion. The centripetal force, needed to this motion with speed v results as the sum of both the normal (to the loop) component of gravity and the normal force exerted by the loop. At the top both point vertically downward.

(b) Fcp=mg+Fn=mv^2/R

For safety,

(c) Fn\ge 0.6 mg


Well, I go further.

We express mv^2 from eq. (a) and insert it into eq. (b)

mv^2= 2mgh

mg+Fn=2mgh/R \rightarrow Fn=mg(2h/R-1)

The last condition (c) means the requirement given in the problem, that

...in order for the cart to negotiate the loop safely, the normal force exerted by the track on the cart at the top of the loop must be at least equal to 0.6 times the weight of the cart.
The weight of the cart is mg. So

Fn=mg(2h/R-1)\ge 0.6 mg\rightarrow 2h/R-1\ge0.6\rightarrowh/R\ge0.8

So the starting height above the top of the loop should be at least 0.8 times the radius of the loop.

Check, please.

ehild
 

Thread 'Rolling without slipping on a curved surface'

Kindly see the attached pdf. My attempt to solve it, is in it. I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction. I'm not able to figure out, why my solution is wrong, if it is wrong .
View full post »

Thread 'Struggling to understand the concept of this question (ice cube in water optics question)'

TL;DR Summary: I came across this question from a Sri Lankan A-level textbook. Question - An ice cube with a length of 10 cm is immersed in water at 0 °C. An observer observes the ice cube from the water, and it seems to be 7.75 cm long. If the refractive index of water is 4/3, find the height of the ice cube immersed in the water. I could not understand how the apparent height of the ice cube in the water depends on the height of the ice cube immersed in the water. Does anyone have an...
View full post »
Thread 'A bead-mass oscillatory system problem'

Thread 'A bead-mass oscillatory system problem'

I can't figure out how to find the velocity of the particle at 37 degrees. Basically the bead moves with velocity towards right let's call it v1. The particle moves with some velocity v2. In frame of the bead, the particle is performing circular motion. So v of particle wrt bead would be perpendicular to the string. But how would I find the velocity of particle in ground frame? I tried using vectors to figure it out and the angle is coming out to be extremely long. One equation is by work...
View full post »

Similar threads

A cart collides with a bumper -- Find the final displacements, etc.
Replies
15
Views
2K
Coefficient of Friction question for a cart going down a wooden ramp
Replies
18
Views
3K
Calculating Loops and Radius for a Cart
Replies
1
Views
2K
Loop problem with skier on ramp going into a loop-the-loop
Replies
13
Views
2K
Impulse and Momentum: Ball and cart connected by a cord
Replies
24
Views
3K
Finding the minimum speed of a loop the loop and finding the height of the hill
Replies
9
Views
4K
What Is the Minimum Compression Distance X for Safe Loop Negotiation?
Replies
1
Views
5K
Work Energy Theorem Loop-The-Loop problem
Replies
15
Views
6K
Circular motion , the loop the loop
Replies
3
Views
2K
Loop the Loop (circular motion)
Replies
3
Views
6K

Hot Threads

Recent Insights

Back
Top