As shown in the figure below, a stick of length L = 0.435 m and mass m = 0.300 kg is in contact with a rough floor at one end and a frictionless bowling ball (diameter d = 15.00 cm) at some other point such that the angle between the stick and the floor is e = 30°. Determine the following. 30.0° (a) magnitude of the force exerted on the stick by the bowling ball 1.49 Since the stick is in static equilibrium, we expect to use the first and second condition of equilibrium. Since we need to determine torques, before starting the problem, see if you can write an expression for the torque in terms of the force producing the torque and the perpendicular distance between the line of action of this force and the point about which we are determining the torques. Determine a convenient point about which to determine the torques. It will be to your advantage to draw a careful figure which includes the stick, all dimensions and angles, all forces acting on the stick, the point about which you plan to take the torques and for each force. Now that all the preliminary work for the problem has been done, see if you can write an expression of the second condition of equilibrium that will allow you to determine the magnitude of the force exerted on the stick by the bowling ball. N (b) horizontal component of the force exerted on the stick by the floor 0.745 Now that you have determined N, (the magnitude of the force exerted on the stick by the bowling ball) from part (a) of the problem, see if you can write an expression of the first condition of equilibrium that will allow you to determine the horizontal component of the force exerted the stick by the floor. N (c) vertical component of the force exerted on the stick by the floor 3.62 Now that you have determined Na (the magnitude of the force exerted on the stick by the bowling ball) from part (a) of the problem, see if you can write an expression of the first condition of equilibrium that will allow you to determine the vertical component of the force exerted on the stick hy the floor N
As shown in the figure below, a stick of length L = 0.435 m and mass m = 0.300 kg is in contact with a rough floor at one end and a frictionless bowling ball (diameter d = 15.00 cm) at some other point such that the angle between the stick and the floor is e = 30°. Determine the following. 30.0° (a) magnitude of the force exerted on the stick by the bowling ball 1.49 Since the stick is in static equilibrium, we expect to use the first and second condition of equilibrium. Since we need to determine torques, before starting the problem, see if you can write an expression for the torque in terms of the force producing the torque and the perpendicular distance between the line of action of this force and the point about which we are determining the torques. Determine a convenient point about which to determine the torques. It will be to your advantage to draw a careful figure which includes the stick, all dimensions and angles, all forces acting on the stick, the point about which you plan to take the torques and for each force. Now that all the preliminary work for the problem has been done, see if you can write an expression of the second condition of equilibrium that will allow you to determine the magnitude of the force exerted on the stick by the bowling ball. N (b) horizontal component of the force exerted on the stick by the floor 0.745 Now that you have determined N, (the magnitude of the force exerted on the stick by the bowling ball) from part (a) of the problem, see if you can write an expression of the first condition of equilibrium that will allow you to determine the horizontal component of the force exerted the stick by the floor. N (c) vertical component of the force exerted on the stick by the floor 3.62 Now that you have determined Na (the magnitude of the force exerted on the stick by the bowling ball) from part (a) of the problem, see if you can write an expression of the first condition of equilibrium that will allow you to determine the vertical component of the force exerted on the stick hy the floor N
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter8: Rotational Motion
Section: Chapter Questions
Problem 1STP
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Rotational Equilibrium And Rotational Dynamics
In physics, the state of balance between the forces and the dynamics of motion is called the equilibrium state. The balance between various forces acting on a system in a rotational motion is called rotational equilibrium or rotational dynamics.
Equilibrium of Forces
The tension created on one body during push or pull is known as force.
Question
Transcribed Image Text:As shown in the figure below, a stick of length L = 0.435 m and mass m = 0.300 kg is in contact with a rough floor at one end and a frictionless bowling ball (diameter d = 15.00 cm) at some other point such that the angle between the stick and the floor is e = 30°.
Determine the following.
30.0°
(a) magnitude of the force exerted on the stick by the bowling ball
1.49
Since the stick is in static equilibrium, we expect to use the first and second condition of equilibrium. Since we need to determine torques, before starting the problem, see if you can write an expression for the torque in terms of the force producing the torque
and the perpendicular distance between the line of action of this force and the point about which we are determining the torques. Determine a convenient point about which to determine the torques. It will be to your advantage to draw a careful figure which
includes the stick, all dimensions and angles, all forces acting on the stick, the point about which you plan to take the torques and for each force. Now that all the preliminary work for the problem has been done, see if you can write an expression of the second
condition of equilibrium that will allow you to determine the magnitude of the force exerted on the stick by the bowling ball. N
(b) horizontal component of the force exerted on the stick by the floor
0.745
Now that you have determined N, (the magnitude of the force exerted on the stick by the bowling ball) from part (a) of the problem, see if you can write an expression of the first condition of equilibrium that will allow you to determine the horizontal component
of the force exerted
the stick by the floor. N
(c) vertical component of the force exerted on the stick by the floor
3.62
Now that you have determined Na (the magnitude of the force exerted on the stick by the bowling ball) from part (a) of the problem, see if you can write an expression of the first condition of equilibrium that will allow you to determine the vertical component of
the force exerted on the stick hy the floor N
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