1. A 95 g bullet travelling at 101 m/s hits a stationary 800 g wooden block sitting on a frictionless surface, against a spring attached to the wall (see diagram). If the spring constant is 250 Determine the maximum compression of the spring. N m wooden block spring .
1. A 95 g bullet travelling at 101 m/s hits a stationary 800 g wooden block sitting on a frictionless surface, against a spring attached to the wall (see diagram). If the spring constant is 250 Determine the maximum compression of the spring. N m wooden block spring .
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Kindly provide the solution to the following question using the GRASS method. Hooke’s Law: Spring Compression question, (Unit: Energy and Momentum).
The images attached are the formulas for this unit and the question. Please make sure to show all your work using the GRASS method and using formulas from this unit (Energy and Momentum).
Transcribed Image Text:N
1. A 95 g bullet travelling at 101 m/s hits a stationary 800 g wooden block sitting on a frictionless
surface, against a spring attached to the wall (see diagram). If the spring constant is 250 M
Determine the maximum compression of the spring.
m
wooden
block
spring
Transcribed Image Text:Energy
W = F d
1
Eg == k
EE
-kxx²
2
Momentum
Px = Px'
E₁ = mgh_E₁₂ = 12m²
Eg
Ex
2
T=2
Py = Py
Unit 2 Energy & Momentum
m
V k
mv Em = Ep + Ek
Px = mix
1 k
2 Vm
==
py = mvy
F
spring
E₁ = E + Ek
EFAT = Ap
= kx Eth=Fd
Fnet = 4P
At
p = p²
Ek = Ek'
Ек
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