c) 39.2 d) 19.4 Q5: The area under a velocity-time graph represents: a) speed b) change in acceleration c) change in velocity d) displacement Q6: An elevator has a mass of 1600 kg and is carrying 200 kg passengers. A constant friction force of 4000 N retards its motion upward. What power delivered by the motor (in W) is required to lift the elevator ot
c) 39.2 d) 19.4 Q5: The area under a velocity-time graph represents: a) speed b) change in acceleration c) change in velocity d) displacement Q6: An elevator has a mass of 1600 kg and is carrying 200 kg passengers. A constant friction force of 4000 N retards its motion upward. What power delivered by the motor (in W) is required to lift the elevator ot
College Physics
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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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physics, please solve question 5
![Q1: If A=41-6 and B = 21 +10 then the vector C=2Ã-B has a magnitude of:
a) 7.2
b) 42
c) 23
d) 64
Q2: A block of mass 0.3 kg is dropped from rest at a height 2 m directly above the top of a vertical spring
having a force constant 100 N/m. The maximum compressed distance (in m) of the spring is
a) 0.44
b) 0.22
c) 0.63
d) 0.38
Q3: Two vectors lying in the xy plane are given by the equations A=51-21 and B-21-31. AxB equals:
a) -19k
b) 11k
c) 19k
B=
d) -11k
Q4: A stone is thrown vertically upward with an initial speed of 14 m/s. It will rise to a maximum height
(in m) of:
a) 13.1
b) 9.8
c) 39.2
d) 19.4
Q5: The area under a velocity-time graph represents:
a) speed
b) change in acceleration c) change in velocity
d) displacement
Q6: An elevator has a mass of 1600 kg and is carrying 200 kg passengers. A constant friction force of 4000
N retards its motion upward. What power delivered by the motor (in W) is required to lift the elevator at a
constant speed of 4 m/s?
a) 4.33*10*
b) 2.73*104
c) 8.80*104
d) 3.53*10*
Q7: In a given displacement of a particle, its kinetic energy increases by 25 J while its potential energy
decreases by 10J. determine the work of the nonconservative forces acting on the particle during this
displacement.
a)-15J
b) 10 J
c) 15 J
d) -40 J
Q8: A football player shot the ball at an angle of 40° above the horizontal at a speed of 8 m/s. How far (in
m) will the ball reach in the horizontal direction?
a) 22.6
b) 14.5
c) 9.8
d) 6.3
00](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Faac27376-f89a-4309-92ca-a1a66062c1ea%2Fb9e20419-bced-49d3-a43f-3c19cf61a324%2F9x9me4f_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q1: If A=41-6 and B = 21 +10 then the vector C=2Ã-B has a magnitude of:
a) 7.2
b) 42
c) 23
d) 64
Q2: A block of mass 0.3 kg is dropped from rest at a height 2 m directly above the top of a vertical spring
having a force constant 100 N/m. The maximum compressed distance (in m) of the spring is
a) 0.44
b) 0.22
c) 0.63
d) 0.38
Q3: Two vectors lying in the xy plane are given by the equations A=51-21 and B-21-31. AxB equals:
a) -19k
b) 11k
c) 19k
B=
d) -11k
Q4: A stone is thrown vertically upward with an initial speed of 14 m/s. It will rise to a maximum height
(in m) of:
a) 13.1
b) 9.8
c) 39.2
d) 19.4
Q5: The area under a velocity-time graph represents:
a) speed
b) change in acceleration c) change in velocity
d) displacement
Q6: An elevator has a mass of 1600 kg and is carrying 200 kg passengers. A constant friction force of 4000
N retards its motion upward. What power delivered by the motor (in W) is required to lift the elevator at a
constant speed of 4 m/s?
a) 4.33*10*
b) 2.73*104
c) 8.80*104
d) 3.53*10*
Q7: In a given displacement of a particle, its kinetic energy increases by 25 J while its potential energy
decreases by 10J. determine the work of the nonconservative forces acting on the particle during this
displacement.
a)-15J
b) 10 J
c) 15 J
d) -40 J
Q8: A football player shot the ball at an angle of 40° above the horizontal at a speed of 8 m/s. How far (in
m) will the ball reach in the horizontal direction?
a) 22.6
b) 14.5
c) 9.8
d) 6.3
00
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