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A small block of mass m kept at the left end of a larger block of mass M and length l. The system can slide on a horizontal road. The system is started towards right with an initial velocity v.
30
Sep
A small block of mass m kept at the left end of a larger block of mass M and length l. The system can slide on a horizontal road. The system is started towards right with an initial velocity v. A small block of mass m kept at the left end of a larger block [...]
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Tags: A small block of mass m kept at the left end of a larger block of mass M and length l. The system can slide on a horizontal road. The system is started towards right with an initial velocity v. ,
The block A is kept over a plank B. The maximum horizontal acceleration of the system in order to prevent slipping of A over B is a = 2 m/s^2. Find the coefficient of friction between A and B.
30
Sep
The block A is kept over a plank B. The maximum horizontal acceleration of the system in order to prevent slipping of A over B is a = 2 m/s^2. Find the coefficient of friction between A and B. The block A is kept over a plank B. The maximum horizontal acceleration of the system [...]
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Tags: The block A is kept over a plank B. The maximum horizontal acceleration of the system in order to prevent slipping of A over B is a = 2 m/s^2. Find the coefficient of friction between A and B. ,
Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig.7.140 ? Also find maximum F for which two blocks will move together?
30
Sep
Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig.7.140 ? Also find maximum F for which two blocks will move together? Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig.7.140 ? Also find maximum F for which two blocks will move together? ,
Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.139.
30
Sep
Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.139. Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.139. September 30, 2020 Category: Uncategorised (JEE Advanced Physics by [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.139. ,
Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.138. Given mA = mB = 10 kg.
30
Sep
Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.138. Given mA = mB = 10 kg. Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.138. Given mA [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Find the acceleration of the two blocks. The system is initially at rest and the friction coefficient are as shown in Fig. 7.138. Given mA = mB = 10 kg. ,
In fig. 7.137, initially the system is at rest. Find out minimum value of F for which sliding starts between the two blocks. Given mA = 10 kg and mB = 20 kg.
30
Sep
In fig. 7.137, initially the system is at rest. Find out minimum value of F for which sliding starts between the two blocks. Given mA = 10 kg and mB = 20 kg. In fig. 7.137 initially the system is at rest. Find out minimum value of F for which sliding starts between the two [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: In fig. 7.137 , initially the system is at rest. Find out minimum value of F for which sliding starts between the two blocks. Given mA = 10 kg and mB = 20 kg. ,
A block of mass 1 kg is horizontally thrown with a velocity of 10 m/s on a stationary long plank of mass 2 kg whose surface has a mu = 0.5. Plank rests on frictionless surface. Find the time
30
Sep
A block of mass 1 kg is horizontally thrown with a velocity of 10 m/s on a stationary long plank of mass 2 kg whose surface has a mu = 0.5. Plank rests on frictionless surface. Find the time A block of mass 1 kg is horizontally thrown with a velocity of 10 m/s on [...]
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Tags: A block of mass 1 kg is horizontally thrown with a velocity of 10 m/s on a stationary long plank of mass 2 kg whose surface has a mu = 0.5. Plank rests on frictionless surface. Find the time ,
Two blocks of masses m1 and m2 connected by a string and placed on an rough inclined plane having coefficient of friction mu as shown in Fig. 7.89. Find the ratio of massless
30
Sep
Two blocks of masses m1 and m2 connected by a string and placed on an rough inclined plane having coefficient of friction mu as shown in Fig. 7.89. Find the ratio of massless Two blocks of masses m1 and m2 connected by a string and placed on an rough inclined plane having coefficient of friction [...]
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Tags: Two blocks of masses m1 and m2 connected by a string and placed on an rough inclined plane having coefficient of friction mu as shown in Fig. 7.89. Find the ratio of massless ,
Two small spheres of masses m1 and m2 are connected by a light rod. The system is placed between a rough floor and smooth vertical wall as shown in Fig. 7.88. The co-efficient of friction
30
Sep
Two small spheres of masses m1 and m2 are connected by a light rod. The system is placed between a rough floor and smooth vertical wall as shown in Fig. 7.88. The co-efficient of friction Two small spheres of masses m1 and m2 are connected by a light rod. The system is placed between a [...]
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Tags: Two small spheres of masses m1 and m2 are connected by a light rod. The system is placed between a rough floor and smooth vertical wall as shown in Fig. 7.88. The co-efficient of friction ,
A uniform chain is just at rest over a rough horizontal table with its 1 / n th part of length hanging vertically. Find the co-efficient of static friction between the chain and the table.
30
Sep
A uniform chain is just at rest over a rough horizontal table with its 1 / n th part of length hanging vertically. Find the co-efficient of static friction between the chain and the table. A uniform chain is just at rest over a rough horizontal table with its 1 / n th part of [...]
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Tags: A uniform chain is just at rest over a rough horizontal table with its 1 / n th part of length hanging vertically. Find the co-efficient of static friction between the chain and the table. ,