Hwk Problem: Mechanical Energy

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Homework Help Overview

The problem involves a bullet's mechanical energy and the forces acting on it as it stops after hitting a wall. The subject area includes concepts from mechanics, specifically energy conservation and force calculations.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the equations for mechanical energy and force, questioning the relevance of potential energy in this scenario. There is a focus on using conservation of energy to determine the change in mechanical energy and the average force exerted by the wall.

Discussion Status

Some participants have provided guidance on using conservation of energy principles and have clarified the assumptions regarding potential energy. There is a recognition of the kinetic energy change as the bullet stops, and a method for calculating the average force has been suggested. However, the discussion does not reach a consensus on the final calculations.

Contextual Notes

Participants note the importance of the bullet's horizontal motion and the distance over which it stops. The problem constraints include the mass of the bullet and its initial velocity, with an emphasis on the horizontal stopping distance.

shawonna23
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A 30 g bullet, with a horizontal velocity of 516 m/s, stops 19 cm within a solid wall.
(a) What is the change in its mechanical energy?

(b) What is the magnitude of the average force from the wall stopping it?

For Part a, To find the change in mechanical energy, do I use the equation: ME=(1/2)mv^2 + mgh

For Part b, I can use this equation F=m*a
 
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a. yes

b. yes

-------------
 
ME = (1/2)mv^2 + mgh
(1/2)(mass)(velocity squared) + (mass)(gravity)(height)

F = m*a
Force = mass * acceleration

use this to solve your problems
 
shawonna23 said:
A 30 g bullet, with a horizontal velocity of 516 m/s, stops 19 cm within a solid wall.
(a) What is the change in its mechanical energy?

(b) What is the magnitude of the average force from the wall stopping it?

For Part a, To find the change in mechanical energy, do I use the equation: ME=(1/2)mv^2 + mgh

For Part b, I can use this equation F=m*a

For a) You should use conservation of energy. i think you can assume that the height of the bullet remains the same, so there is no change in potential energy mgh. basically the clue is that you come in with velocity 516 m/s and you stop after 0.19 m.

The change in mechanical energy is calculated by realizing that the kinetic energy goes from 1/2mv² to 0

For b) assume all horizontal motions. You can calculate the force that makes the object stop from this equation : change in kinetic energy = traveled distance * Force

So you'd have 1/2*30*516² = 0.19 * F...Solve for F

marlon
 
Thanks guys, I got the answers and they were correct!
 

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