In the system shown in the figure below, a horizontal force F, acts on an object of mass m, = 6.10 kg. The horizontal surface is frictionless. Consider the acceleration of the sliding object as a function of F. m2 (a) For what values of F, does the object of mass m, = 1.60 kg accelerate upward? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.) F, > (b) For what values of F, is the tension in the cord zero? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.) F. S N
In the system shown in the figure below, a horizontal force F, acts on an object of mass m, = 6.10 kg. The horizontal surface is frictionless. Consider the acceleration of the sliding object as a function of F. m2 (a) For what values of F, does the object of mass m, = 1.60 kg accelerate upward? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.) F, > (b) For what values of F, is the tension in the cord zero? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.) F. S N
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![In the system shown in the figure below, a horizontal force \( F_x \) acts on an object of mass \( m_2 = 6.10 \) kg. The horizontal surface is frictionless. Consider the acceleration of the sliding object as a function of \( F_x \).
![Diagram](Diagram)
In the diagram, object \( m_2 \) (with mass 6.10 kg) is placed on a frictionless horizontal surface. A horizontal force \( F_x \) is applied to \( m_2 \), causing it to move to the right. Object \( m_1 \) (with a mass of 1.60 kg) is hanging vertically, connected to \( m_2 \) through a pulley system.
(a) For what values of \( F_x \) does the object of mass \( m_1 = 1.60 \) kg accelerate upward? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.)
\[
F_x > \_\_\_\_\_ \text{N}
\]
(b) For what values of \( F_x \) is the tension in the cord zero? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.)
\[
F_x \leq \_\_\_\_\_ \text{N}
\]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb82cdd93-87a8-4004-913f-cae9a7e1e525%2F799960a2-7747-4845-9107-423847513aaa%2Frosvf9b_processed.jpeg&w=3840&q=75)
Transcribed Image Text:In the system shown in the figure below, a horizontal force \( F_x \) acts on an object of mass \( m_2 = 6.10 \) kg. The horizontal surface is frictionless. Consider the acceleration of the sliding object as a function of \( F_x \).
![Diagram](Diagram)
In the diagram, object \( m_2 \) (with mass 6.10 kg) is placed on a frictionless horizontal surface. A horizontal force \( F_x \) is applied to \( m_2 \), causing it to move to the right. Object \( m_1 \) (with a mass of 1.60 kg) is hanging vertically, connected to \( m_2 \) through a pulley system.
(a) For what values of \( F_x \) does the object of mass \( m_1 = 1.60 \) kg accelerate upward? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.)
\[
F_x > \_\_\_\_\_ \text{N}
\]
(b) For what values of \( F_x \) is the tension in the cord zero? (Indicate the direction of the force with the sign of your answer. Let the positive x direction be to the right.)
\[
F_x \leq \_\_\_\_\_ \text{N}
\]
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