How Does Collision Affect Spring Compression and Motion?

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The discussion focuses on a physics problem involving a collision between two blocks and the subsequent motion of a spring. After a block of mass 2M collides with a stationary block of mass M, the final speed of the combined blocks is calculated to be (2/3)V0. The maximum compression of the spring is derived by equating kinetic energy to potential energy, leading to the expression x = sqrt(((3M)((2/3)(V0))^2) / k). The period of the subsequent simple harmonic motion is determined using the formula T = 2π√(m/k), where m is the total mass after the collision. The discussion confirms that the maximum compression of the spring is also the amplitude of the motion, assuming no damping is present.
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Homework Statement



A block of mass M is resting on a horizontal, frictionless table and is attached as shown above to a relaxed spring of spring constant k. A second block of mass 2 M and initial speed v0 collides with and sticks to the first block.

Develop expressions for the following quantities in terms of M, K, and v0.

a) v, the speed of the blocks after impact

b) x, the max distance the spring is compressed

c) T, the period of the subsequent simple harmonic motion

Homework Equations



- M1V1 + M2V2 = (M1 + M2)(Vf)

- (1/2)(k)(x^2)

- F = -kx

- (1/2)(m)(v^2)


The Attempt at a Solution



a)

M1V1 + M2V2 = (M1 + M2)(Vf)

(2M)(V0) + (M)(0) = (2M + M)(x)

(2M)(V0) = (3M)(Vf)

Vf = (2/3)(V0)

b)

x = max distance spring is compressed

spring constant = k

PE of spring = (1/2)(k)(x^2)

Max distance = PE at MAX, KE = 0

Logic process: We know that v = Vf is solved above, set PE = KE, since complete transfer occurs

(1/2)(m)(v^2) = (1/2)(k)(x^2)

(m)((2/3)(V0))^2 = (k)(x^2)

sqrt(((m)((2/3)(V0))^2) / k) = x

c)

No clue, unknown how to solve this (help?)
 
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T = 2*pi*sqrt(m/k) for SHM.
 
Shooting star said:
T = 2*pi*sqrt(m/k) for SHM.

I'm sorry -- is the rest of my work correct for parts A and B?

I "assumed" knowng myself that I would be wrong up there somewhere -- I guess not this time :)
 
The rest of your solution is quite correct. Good work.
 
Can I assume that since there is nothing acting to dampen the SHM that the X found in part b.) for max compression is also the amplitude?
 
bphysics said:
Logic process: We know that v = Vf is solved above, set PE = KE, since complete transfer occurs

(1/2)(m)(v^2) = (1/2)(k)(x^2)

(m)((2/3)(V0))^2 = (k)(x^2)

sqrt(((m)((2/3)(V0))^2) / k) = x

I noticed an error here today. The 2nd eqn should be (3m)((2/3)(V0))^2 = (k)(x^2). The x will change.

Swedishfish said:
Can I assume that since there is nothing acting to dampen the SHM that the X found in part b.) for max compression is also the amplitude?

No. There is no mention of damping in the problem, and we'll assume that the motion is undamped, and max compression is also the amplitude.
 

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