Physics-
General
Easy
Question
A smooth ring of mass 
is in equilibrium. Assuming ideal condition, the tension in the string is equal to :
The correct answer is:
Related Questions to study
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Two smooth particles of masses 
and 
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and 
as shown in the figure. The condition for which the tension in the string appears is:
Two smooth particles of masses and connected by a light inextensible string experience forces and as shown in the figure. The condition for which the tension in the string appears is:
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A rod of length 
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A rod of length is moving such that its ends A and B move in contact with the horizontal floor and vertical wall respectively as shown in figure. O is the intersection point of the vertical wall and horizontal floor. The velocity vector of the centre of rod C is always directed along tangent drawn at C to the -
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What is the relation between velocities of blocks A and B in the given figure.
What is the relation between velocities of blocks A and B in the given figure.
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If the block A and B are moving towards each other with acceleration a and b as shown in the Fig. Find the net acceleration of block C.
If the block A and B are moving towards each other with acceleration a and b as shown in the Fig. Find the net acceleration of block C.
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What is the relation between velocities of points A and B in the given figure.
What is the relation between velocities of points A and B in the given figure.
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What is the relation between velocities of points A and B in the given figure.
What is the relation between velocities of points A and B in the given figure.
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There are two blocks A and B in contact with vertical and horizontal smooth surface respectively. Acceleration of A and B are 
and 
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)
There are two blocks A and B in contact with vertical and horizontal smooth surface respectively. Acceleration of A and B are and respectively along their constrained direction of motions. Relation between and is (Assume )
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The rod A slides down on block B which slides down on a fixed inclined plane making an angle 
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A block is dragged on a smooth plane with the help of a rope which moves with a velocity U as shown in figure. The horizontal velocity of the block is
A block is dragged on a smooth plane with the help of a rope which moves with a velocity U as shown in figure. The horizontal velocity of the block is
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A bob of mass hangs by a light inextensible string which passes over a fixed smooth pulley P and connects a ring of mass . The ring is constrained to move along a smooth rigid horizontal rod. The instantaneous velocities and accelerations of the bodies are 
and 
, a 
respectively then :
A bob of mass hangs by a light inextensible string which passes over a fixed smooth pulley P and connects a ring of mass . The ring is constrained to move along a smooth rigid horizontal rod. The instantaneous velocities and accelerations of the bodies are and , a respectively then :
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The block A is pushed towards the wall by a distance and released. The normal reaction by vertical wall on the block B v/s compression in spring is given by :
The block A is pushed towards the wall by a distance and released. The normal reaction by vertical wall on the block B v/s compression in spring is given by :
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Two springs are a series combination and are attached to a book of mass 'm' which is in equilibrium. The spring constants and the extensions in the springs are as shown in the figure. Then the force exerted by the spring on the block is :
Two springs are a series combination and are attached to a book of mass 'm' which is in equilibrium. The spring constants and the extensions in the springs are as shown in the figure. Then the force exerted by the spring on the block is :
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In the situation shown in the figure, the system is in equilibrium. All the strings, spring and pulley are light. Just after cutting the string AB,
In the situation shown in the figure, the system is in equilibrium. All the strings, spring and pulley are light. Just after cutting the string AB,
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System shown in figure is in equilibrium and at rest. The spring and string are massless, now the string is cut. The acceleration of mass 2 m and m just after the string is cut will be :
System shown in figure is in equilibrium and at rest. The spring and string are massless, now the string is cut. The acceleration of mass 2 m and m just after the string is cut will be :
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Mass M is displaced by a vertical distance 
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and 
. Find the force F
Mass M is displaced by a vertical distance from equilibrium position by applying a force F The spring constant are and . Find the force F
physics-General
