25. Review. You can think of the work-kinetic energy theorem GP as a second theory of motion, parallel to Newton's laws in QIC describing how outside influences affect the motion of an object. In this problem, solve parts (a), (b), and (c) separately from parts (d) and (e) so you can compare the predictions of the two theories. A 15.0-g bullet is accelerated from rest to a speed of 780 m/s in a rifle barrel of length 72.0 cm. (a) Find the kinetic energy of the bullet as it leaves the barrel. (b) Use the work-kinetic energy theorem to find the net work that is done on the bullet. (c) Use your result to part (b) to find the magnitude of the average net force that acted on the bul let while it was in the barrel. (d) Now model the bullet as a particle under constant acceleration. Find the constant accel eration of a bullet that starts from rest and gains a speed of 780 m/s over a distance of 72.0 cm. (e) Modeling the bullet as a particle under a net force, find the net force that acted on it during its acceleration. (f) What conclusion can you from comparing your results of parts (c) and (e)? draw

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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25. Review. You can think of the work-kinetic energy theorem
GP as a second theory of motion, parallel to Newton's laws in
QIC describing how outside influences affect the motion of an
object. In this problem, solve parts (a), (b), and (c) separately
from parts (d) and (e) so you can compare the predictions of
the two theories. A 15.0-g bullet is accelerated from rest to a
speed of 780 m/s in a rifle barrel of length 72.0 cm. (a) Find
the kinetic energy of the bullet as it leaves the barrel. (b) Use
the work-kinetic energy theorem to find the net work that
is done on the bullet. (c) Use your result to part (b) to find
the magnitude of the average net force that acted on the bul
let while it was in the barrel. (d) Now model the bullet as a
particle under constant acceleration. Find the constant accel
eration of a bullet that starts from rest and gains a speed of
780 m/s over a distance of 72.0 cm. (e) Modeling the bullet as
a particle under a net force, find the net force that acted on
it during its acceleration. (f) What conclusion can you
from comparing your results of parts (c) and (e)?
draw
Transcribed Image Text:25. Review. You can think of the work-kinetic energy theorem GP as a second theory of motion, parallel to Newton's laws in QIC describing how outside influences affect the motion of an object. In this problem, solve parts (a), (b), and (c) separately from parts (d) and (e) so you can compare the predictions of the two theories. A 15.0-g bullet is accelerated from rest to a speed of 780 m/s in a rifle barrel of length 72.0 cm. (a) Find the kinetic energy of the bullet as it leaves the barrel. (b) Use the work-kinetic energy theorem to find the net work that is done on the bullet. (c) Use your result to part (b) to find the magnitude of the average net force that acted on the bul let while it was in the barrel. (d) Now model the bullet as a particle under constant acceleration. Find the constant accel eration of a bullet that starts from rest and gains a speed of 780 m/s over a distance of 72.0 cm. (e) Modeling the bullet as a particle under a net force, find the net force that acted on it during its acceleration. (f) What conclusion can you from comparing your results of parts (c) and (e)? draw
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