1. The mass of a delivery truck is 4, 116Kg . The center of mass is 0.50 m from the back tires and 2.50 m from the front tires. What is the Force (in N) acting on the front tires?

College Physics
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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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1. The mass of a delivery truck is 4, 116Kg . The center of mass is 0.50 m from the back tires and 2.50 m from the front tires. What is the Force (in N) acting on the front tires? 2. A sphere of mass 1.43 experiences an angular acceleration of 5.2rad / (s ^ 2) due to an application of a 28.6 N.m torque . Find the radius of the cylinder ? ( Moment of inertia of a disk is 2/5 mR^ 2 ) 3. A uniform disk has a mass of 0.911 K g and a radius of 1.371 m. Starting from rest , it accelerates to an angular velocity of 21rad / s in 0.56 s. Determine the net torque acting on the disk (Hint the moment of inertia of a disk is 1/2 mR^ 2 )
The mass of a delivery truck is 4,116 Kg. The center of mass
tires and 2.50 m from the front tires. What is the Force (in N
tires?
2.50m
0.50m
our Answer:
Transcribed Image Text:The mass of a delivery truck is 4,116 Kg. The center of mass tires and 2.50 m from the front tires. What is the Force (in N tires? 2.50m 0.50m our Answer:
A cylinder, a sphere and a hoop of the same masses and radii are rolling from an
inclined plane. Which object arrives first at the bottom of the incline? (I_cylinder =
1/2 mR^2 and I_hoop = mR^2, 1_sphere = 2/5 mR^2)
Question options:
3D
%3D
O cylinder
O hoop
O All arrive at the same time
O sphere
v Saved
Question 7 (2 points)
A heavy boy and a lightweight girl are balanced on a massless seesaw. If they be
move forward so that they are one-half their original distance from the pivot pc
what will happen to the seesaw? Assume that both people are small enough
compared to tha lonath of the coÁcaw to ho thought of ac neint
Transcribed Image Text:A cylinder, a sphere and a hoop of the same masses and radii are rolling from an inclined plane. Which object arrives first at the bottom of the incline? (I_cylinder = 1/2 mR^2 and I_hoop = mR^2, 1_sphere = 2/5 mR^2) Question options: 3D %3D O cylinder O hoop O All arrive at the same time O sphere v Saved Question 7 (2 points) A heavy boy and a lightweight girl are balanced on a massless seesaw. If they be move forward so that they are one-half their original distance from the pivot pc what will happen to the seesaw? Assume that both people are small enough compared to tha lonath of the coÁcaw to ho thought of ac neint
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