Conservation of Momentum for explosion

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Homework Help Overview

The problem involves two identical blocks, one moving and one at rest, where an explosion occurs that doubles their total kinetic energy. The context is centered around the conservation of momentum and kinetic energy principles in a collision scenario.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the initial and final kinetic energy values and their relationship to momentum. There is an attempt to set up equations based on the conservation laws, but some participants express uncertainty about the next steps in the calculations.

Discussion Status

Participants are actively engaging with the problem, with some providing guidance on how to formulate the equations for kinetic energy after the explosion. There is a focus on ensuring that the equations reflect the conditions stated in the problem.

Contextual Notes

There is an emphasis on the requirement that the total kinetic energy after the explosion must equal 25 J, as derived from the problem statement about doubling the initial kinetic energy. Participants are navigating through the implications of this condition in their discussions.

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Homework Statement


A block moves at 5 m/s in the positive x direction and hits an identical block, initially at rest. A small amount of gunpowder had been placed on one of the blocks. The explosion does not harm the blocks but it doubles their total kinetic energy. After the explosion, the blocks move along the x-axis and the orginally moving block has a speed of:


Homework Equations


momentum = mass * velocity

kinetic energy = (1/2) m *(v)^2

conservation on momentum: the total initial momentum = the total final momentum


The Attempt at a Solution


since the mass of the two cars is the same, the mass = M
v1 = velocity of cart 1
v2 = velocity of cart 2

before the collision, the total kinetic energy is 12.5M J
before the collision, the total momentum is 5M kg*m/s

after the collision, the total kinetic energy is 25M J

initial momentum = final momentum
5M = Mv1 + Mv2

This is where I am stuck. I don't know what the next step is and if someone would help me along it would be very much appreciated.
 
Physics news on Phys.org
You say that the total kinetic energy after the collision is 25M J. Write the equation fror that!
 
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The problem says the initial kinetic energy is doubled. So 2 * 12.5 = 25 J
 
Yes, you said that before. Now USE it! Write the equation for total kinetic energy after the collision-explosion and set it equal to 25.
 
25 J = (1/2)Mv1^2 + (1/2)Mv2^2
 
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