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Force F is gradually increased from zero. Determine whether
29
Aug
Force F is gradually increased from zero. Determine whether Force F is gradually increased from zero. Determine whether the block will first slide or lift up. August 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Force F is gradually increased from zero. Determine whether the block will first slide or lift up. ,
Find the least pulling force which acting at an angle of 45 with the horizontal will slide a body weighing 5 kg along a rough horizontal surface . The coefficient of friction mu(s) = mu(k) = 1/3 If a force of doude this is applied along the same direction , find the resulting acceleration of the block
29
Aug
Find the least pulling force which acting at an angle of 45 with the horizontal will slide a body weighing 5 kg along a rough horizontal surface . The coefficient of friction mu(s) = mu(k) = 1/3 If a force of doude this is applied along the same direction , find the resulting acceleration of [...]
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Tags: In Fig force F is gradually increased from zero Draw the graph between applied force F and tension T is the string . The coefficient of string friction between the block and the ground is mu(s) ,
In Fig force F is gradually increased from zero Draw the graph between applied force F and tension T is the string . The coefficient of string friction between the block and the ground is mu(s)
29
Aug
In Fig force F is gradually increased from zero Draw the graph between applied force F and tension T is the string . The coefficient of string friction between the block and the ground is mu(s) In Fig force F is gradually increased from zero Draw the graph between applied force F and tension T [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: In Fig force F is gradually increased from zero Draw the graph between applied force F and tension T is the string . The coefficient of string friction between the block and the ground is mu(s) ,
A block of mass 1kg is at rest on a rough horizontal surface having coefficient of static friction 0.2 and kinetic friction 0.15
29
Aug
A block of mass 1kg is at rest on a rough horizontal surface having coefficient of static friction 0.2 and kinetic friction 0.15 A block of mass 1kg is at rest on a rough horizontal surface having coefficient of static friction 0.2 and kinetic friction 0.15 August 29, 2020 Category: Uncategorised (JEE Advanced Physics by [...]
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Tags: A block of mass 1kg is at rest on a rough horizontal surface having coefficient of static friction 0.2 and kinetic friction 0.15 ,
A block of weight 100n lies on the horizontal surface just begins to move when a horizontal force of 25N acts on it. Determine the coefficient of static friction.
29
Aug
A block of weight 100n lies on the horizontal surface just begins to move when a horizontal force of 25N acts on it. Determine the coefficient of static friction. find the acceleration of masses m(1) m(2) and m(3). Just after the string is cut at point A. Three blocks arranged with pulley and spring as [...]
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Tags: find the acceleration of masses m(1) , m(2) and m(3). Just after the string is cut at point A. , Three blocks arranged with pulley and spring as shown in fig. If the string connecting blocks m(2) and m(3) is cut at point A ,
Three blocks arranged with pulley and spring as shown in fig. If the string connecting blocks m(2) and m(3) is cut at point A, find the acceleration of masses m(1), m(2) and m(3). Just after the string is cut at point A.
29
Aug
Three blocks arranged with pulley and spring as shown in fig. If the string connecting blocks m(2) and m(3) is cut at point A, find the acceleration of masses m(1), m(2) and m(3). Just after the string is cut at point A. find the acceleration of masses m(1) m(2) and m(3). Just after the string [...]
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Tags: find the acceleration of masses m(1) , m(2) and m(3). Just after the string is cut at point A. , Three blocks arranged with pulley and spring as shown in fig. If the string connecting blocks m(2) and m(3) is cut at point A ,
In the Fig shown, mass ‘m’ is being pulled on the incline of a wedge of mass M. All the surface are smooth. Find the acceleration of the wedge.
29
Aug
In the Fig shown, mass ‘m’ is being pulled on the incline of a wedge of mass M. All the surface are smooth. Find the acceleration of the wedge. In the Fig shown mass 'm' is being pulled on the incline of a wedge of mass M. All the surface are smooth. Find the acceleration [...]
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Tags: In the Fig shown , mass 'm' is being pulled on the incline of a wedge of mass M. All the surface are smooth. Find the acceleration of the wedge. ,
Consider a system of a small body of mass m kept on a large body of mass M placed over an inclined plane of the angle of inclination theta to the horizontal. Find the acceleration of m when the system is set in motion. Assume an inclined plane to be fixed. all the contact surfaces are smooth.
29
Aug
Consider a system of a small body of mass m kept on a large body of mass M placed over an inclined plane of the angle of inclination theta to the horizontal. Find the acceleration of m when the system is set in motion. Assume an inclined plane to be fixed. all the contact surfaces [...]
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Tags: A block of mass m can slide freely in a slot made in a bigger blocks of mass M as shown in figure. Their is no friction anywhere in the system ,
A block of mass m can slide freely along the verticle surface of a bigger block of mass M as shown in fig. There is no friction anywhere in the system. The block m is connected to one end is fixed at point P.
29
Aug
A block of mass m can slide freely along the verticle surface of a bigger block of mass M as shown in fig. There is no friction anywhere in the system. The block m is connected to one end is fixed at point P. A block of mass m can slide freely in a slot [...]
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Tags: A block of mass m can slide freely in a slot made in a bigger blocks of mass M as shown in figure. Their is no friction anywhere in the system ,
A block of mass m can slide freely in a slot made in a bigger blocks of mass M as shown in figure. Their is no friction anywhere in the system
29
Aug
A block of mass m can slide freely in a slot made in a bigger blocks of mass M as shown in figure. Their is no friction anywhere in the system A block of mass m can slide freely in a slot made in a bigger blocks of mass M as shown in figure. Their [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A block of mass m can slide freely in a slot made in a bigger blocks of mass M as shown in figure. Their is no friction anywhere in the system ,