4G:Emoodle.nct.edu.om1 my youuuun1. A massless rope that run over africtionless pulley as shown in the figure. If M₁= 4 Kg and M₂ = 9.5 Kg,M₁M₂Part A:Calculate thea) acceleration produced in the pulley in (m/s²)b) tension in the rope in Newton (N) ::Part B:If the masses start moving from rest after 0.8 s,calculate,c) the distance travelled by the mass M₁ in (m)d) the velocity with which the mass M₂ willmove in 0.8s, (m/s):(e) The direction in which M₁ and M₂ move willbe+1:10 I. 4G:moodle.nct.edu.om1. A Roller Coaster showing in the picturebellow of mass of M = 144 Kg is movingthrough the 3 hills until the end of the rid. if thefirst hill has Hight of H1=21 m, the second hillH2 = 16 m and the Third hill H3= 11 m.calculate the following:1.0cm-1.0mtia) Potential energy at the maximum height (firsthill) in (J) :b) The Kinetic Energy in the second hill ::c) the velocity of the car in the third hill ::d) The velocity of the car at the end of the rid ::(e) Potential energy at the end of the hall (J) :1:101६६

Answered: Image /qna-images/answer/eb54cf60-60f4-4fbe-9704-cd60bfe01a54.jpg

1. A massless rope that run over a frictionless pulley as shown in the figure. If M₁ = 4 Kg and M₂ = 9.5 Kg, M₁ M₂ Part A: Calculate the a) acceleration produced in the pulley in (m/s²) b) tension in the rope in Newton (N) :: Part B: If the masses start moving from rest after 0.8 s, calculate, c) the distance travelled by the mass M₁ in (m) d) the velocity with which the mass M₂ will move in 0.8s, (m/s): (e) The direction in which M₁ and M₂ move will be

1. A massless rope that run over a frictionless pulley as shown in the figure. If M₁ = 4 Kg and M₂ = 9.5 Kg, M₁ M₂ Part A: Calculate the a) acceleration produced in the pulley in (m/s²) b) tension in the rope in Newton (N) :: Part B: If the masses start moving from rest after 0.8 s, calculate, c) the distance travelled by the mass M₁ in (m) d) the velocity with which the mass M₂ will move in 0.8s, (m/s): (e) The direction in which M₁ and M₂ move will be

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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Proper Length

The theory of special relativity explains the connection between space and time to objects that move in a straight line at a constant speed. The objects move at the speed of light. When an object approaches light speed, its mass is endless and cannot move faster than light. The most crucial postulate of Einstein's special relativity is that the laws of nature do not change in each frame of reference.

Question

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4G:
E
moodle.nct.edu.om
1 my youuuun
1. A massless rope that run over a
frictionless pulley as shown in the figure. If M₁
= 4 Kg and M₂ = 9.5 Kg,
M₁
M₂
Part A:
Calculate the
a) acceleration produced in the pulley in (m/s²)
b) tension in the rope in Newton (N) ::
Part B:
If the masses start moving from rest after 0.8 s,
calculate,
c) the distance travelled by the mass M₁ in (m)
d) the velocity with which the mass M₂ will
move in 0.8s, (m/s):
(e) The direction in which M₁ and M₂ move will
be
+
1:10

I. 4G:
moodle.nct.edu.om
1. A Roller Coaster showing in the picture
bellow of mass of M = 144 Kg is moving
through the 3 hills until the end of the rid. if the
first hill has Hight of H1=21 m, the second hill
H2 = 16 m and the Third hill H3= 11 m.
calculate the following:
1.0cm-1.0m
ti
a) Potential energy at the maximum height (first
hill) in (J) :
b) The Kinetic Energy in the second hill ::
c) the velocity of the car in the third hill ::
d) The velocity of the car at the end of the rid ::
(e) Potential energy at the end of the hall (J) :
1:10
1
६६

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