Volume 2

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Force acting on a block moving along x-axis is given by F=−(4x^2+2)N The block is displaced from x=−2m to x=+4m, the work done will be
19
Oct
Force acting on a block moving along x-axis is given by F=−(4x^2+2)N The block is displaced from x=−2m to x=+4m, the work done will be Force acting on a block moving along x-axis is given by F=−(4x^2+2)N The block is displaced from x=−2m to x=+4m the work done will be............ October 19, 2020 Category: Arihant [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 6 - Work, Energy and Power , Volume 2 ,
Tags: Force acting on a block moving along x-axis is given by F=−(4x^2+2)N The block is displaced from x=−2m to x=+4m , the work done will be............ ,
Potential energy v/s position curve for one dimensional conservative field is shown. Force at A and B is respectively.
19
Oct
Potential energy v/s position curve for one dimensional conservative field is shown. Force at A and B is respectively. Potential energy v/s position curve for one dimensional conservative field is shown. Force at A and B is respectively. October 19, 2020 Category: Arihant Physics by D.C Pandey , Chapter 6 - Work, Energy and Power [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 6 - Work, Energy and Power , Volume 2 ,
Tags: Potential energy v/s position curve for one dimensional conservative field is shown. Force at A and B is respectively. ,
A body of mass m dropped from a certain height strikes a light vertical fixed spring of stiffness k. the height of its fall before touching the spring the if the maximum compression of the spring the equal to 3mg/k is
19
Oct
A body of mass m dropped from a certain height strikes a light vertical fixed spring of stiffness k. the height of its fall before touching the spring the if the maximum compression of the spring the equal to 3mg/k is A block of mass m is suspended by a light thread from an elevator. [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 6 - Work, Energy and Power , Volume 2 ,
Tags: A block of mass m is suspended by a light thread from an elevator. The elevator is accelerating upward with uniform acceleration a. The work done by tension on the block during t seconds is (u = 0) ,
The graph between the resistive force F acting on a body and the distance covered by the body is shown in the figure. The mass of the body is 25 kg and initial velocity is 2m/s. When the distance covered by the body is 4m, its kinetic energy would be
19
Oct
The graph between the resistive force F acting on a body and the distance covered by the body is shown in the figure. The mass of the body is 25 kg and initial velocity is 2m/s. When the distance covered by the body is 4m, its kinetic energy would be A block of mass m [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 6 - Work, Energy and Power , Volume 2 ,
Tags: A block of mass m is suspended by a light thread from an elevator. The elevator is accelerating upward with uniform acceleration a. The work done by tension on the block during t seconds is (u = 0) ,
Anoop pushes eight identical blocks on the horizontal frictionless surface with horizontal force F. the that block-1 (where F is applied) exerts on block 2 has magnitudes F21 and the force that block-7exerts on the block -8 is F87. Find F21/F87
19
Oct
Anoop pushes eight identical blocks on the horizontal frictionless surface with horizontal force F. the that block-1 (where F is applied) exerts on block 2 has magnitudes F21 and the force that block-7exerts on the block -8 is F87. Find F21/F87 A block is projected upwards on a rough inclined plane at 20 m/s. let [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Tags: A block is projected upwards on a rough inclined plane at 20 m/s. let the time in going up , then t is equal to ,
A pendulum is hanging from the ceiling of a cage . If the cage moves up with constant acceleration ‘a’ the tension is T1. If it moves down with the same acceleration ‘a’ then tension is T2. If the cage moves horizontally with the same acceleration ‘a’, then the tension is T in equilibrium w.r.t. cage. Then 2T^−2 is
19
Oct
A pendulum is hanging from the ceiling of a cage . If the cage moves up with constant acceleration ‘a’ the tension is T1. If it moves down with the same acceleration ‘a’ then tension is T2. If the cage moves horizontally with the same acceleration ‘a’, then the tension is T in equilibrium w.r.t. [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Tags: A block is projected upwards on a rough inclined plane at 20 m/s. let the time in going up , then t is equal to ,
A system consisting of a man on platform is in equilibrium. Masses of man and platform are equal. The platform is in equilibrium due to two massless string is pulled by man resting on platform. Find the ratio of tension in left string to the tension in right string.
19
Oct
A system consisting of a man on platform is in equilibrium. Masses of man and platform are equal. The platform is in equilibrium due to two massless string is pulled by man resting on platform. Find the ratio of tension in left string to the tension in right string. A block is projected upwards on [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Tags: A block is projected upwards on a rough inclined plane at 20 m/s. let the time in going up , then t is equal to ,
A block is resting on a horizontal plate in the xy plane and the coefficient of friction between block and plate is μ. The plate begins to move with velocity v=bt^2 in x direction At what time will the block start sliding on the plate?
19
Oct
A block is resting on a horizontal plate in the xy plane and the coefficient of friction between block and plate is μ. The plate begins to move with velocity v=bt^2 in x direction At what time will the block start sliding on the plate? A block is projected upwards on a rough inclined plane [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Tags: A block is projected upwards on a rough inclined plane at 20 m/s. let the time in going up , then t is equal to ,
A block of mass m slides m slides down a smooth incline of angle of inclination θ. The force acting on it are N (normal reaction). And mg (weight). The acceleration of the block is α. Two students analyze the situation and apply Newton a second law. First studentmgsinθ=ma second student−Ncosθ=masinθ
19
Oct
A block of mass m slides m slides down a smooth incline of angle of inclination θ. The force acting on it are N (normal reaction). And mg (weight). The acceleration of the block is α. Two students analyze the situation and apply Newton a second law. First studentmgsinθ=ma second student−Ncosθ=masinθ A block is projected [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Tags: A block is projected upwards on a rough inclined plane at 20 m/s. let the time in going up , then t is equal to ,
In the figure shown, acceleration of the block is
19
Oct
In the figure shown, acceleration of the block is acceleration of the block is In the figure shown October 19, 2020 Category: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Posted in: Arihant Physics by D.C Pandey , Chapter 5 - Laws of Motion , Volume 2 ,
Tags: acceleration of the block is , In the figure shown ,