How Do You Calculate Speed and Normal Forces in a Loop-the-Loop Problem?

gcharles_42 · Oct 18, 2013

Homework Statement

In Fig. 8-28, a small block of mass m = 3.0 kg can slide along the frictionless loop-the-loop. The loop has radius R = 0.80 m. The block is released from rest at point P, at height h = 2.9R above the bottom of the loop.

I attatched a picture

(a) Find the speed of the block when it reaches point Q.

(b) Find the normal force on the block at point Q.

(c) Find the normal force on the block when it is at the very bottom.

(d) Find the normal force on the block when it is at the top of the little loop (i.e., at a height 2R above the ground)

Homework Equations

KEi + PEi = KEf +PEf

KE=1/2mv^2

v = w (r)

The Attempt at a Solution

So for the velocity isn't it just converting the PE at the top for the KE at the bottom?

For all the normal forces i am completely stumped

gcharles_42 · Oct 18, 2013

So for a) v = 3(.98) 1.9(.8) = 1/2(3)v^2

tiny-tim · Oct 18, 2013

hi gcharles_42!

gcharles_42 said:

So for the velocity isn't it just converting the PE at the top for the KE at the bottom?

yes

but i don't understand the LHS of your equation :redface:

…

gcharles_42 said:

So for a) v = 3(.98) 1.9(.8) = 1/2(3)v^2

for the normal forces, you need to use F_total = ma in the normal direction

(you'll need the centripetal acceleration formula)

How Do You Calculate Speed and Normal Forces in a Loop-the-Loop Problem?

Homework Statement

Homework Equations

The Attempt at a Solution

Attachments

Related to How Do You Calculate Speed and Normal Forces in a Loop-the-Loop Problem?

1. What is a loop de loop problem?

2. What is a normal force?

3. Why is the normal force important in a loop de loop problem?

4. How is normal force calculated in a loop de loop problem?

5. What factors affect the normal force in a loop de loop problem?

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