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Physics-

General

Easy

Question

In the given fig, pulley is frictionless and massless. Both the springs are having same force constant 10 N/m. Initially with the string attached to the grounds, the total system is at rest. Now if the string is cut, then immediately after cutting the string,

acceleration of 7 kg block is $5 m / s^{2}$
acceleration of 5 kg block is zero
acceleration of 6 kg block is $100 / 6 / m / s^{2}$
acceleration of 4 kg block is $10 m / s^{2}$

The correct answer is: acceleration of 5 kg block is zero

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Two blocks are connected by a spring. The combination is suspended, at rest, from a string attached to the ceiling, as shown in the figure. The string breaks suddenly. Immediately after the string breaks, what is the initial downward acceleration of the upper block of mass 2 m ?

Two blocks are connected by a spring. The combination is suspended, at rest, from a string attached to the ceiling, as shown in the figure. The string breaks suddenly. Immediately after the string breaks, what is the initial downward acceleration of the upper block of mass 2 m ?

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Two blocks A and B of masses m&2m respectively are held at rest such that the spring is in natural length. Find out the accelerations of both the blocks jus t after release.

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In the arrangements shown, the pulleys, strings and springs are weightless and the systems can move freely without friction. The extension of spring in figure 1 is $x subscript 1 end subscript$ and that in figure 2 is $x subscript 2 end subscript$ . Then

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In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

The acceleration of Block A in horizontal direction is

In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

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physics-General

In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

The acceleration of Block B is

In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

The acceleration of Block B is

physics-General

In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

The acceleration of Block C is

In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

The acceleration of Block C is

physics-General

parallel

In the system shown in Fig, $m subscript A end subscript equals 4 m comma m subscript B end subscript equals 3 m$ , and $m subscript C end subscript equals 8.$ Friction is absent everywhere, and the string is inextensible and light. If the system is released from rest, then find the following.

The tension in the string is

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parallel

In the arrangement shown in figure wedge of mass M moves towards left with an acceleration a. All surfaces are smooth. The acceleration of mass $m$ relative to wedge is :

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Two blocks $A$ and $B$ of equal mass $m$ are connected through a massless string and arranged as shown in figure. Friction is absent everywhere. When the system is released from rest:

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In fig. all the pulleys and strings are massless and all the surfaces are frictionless. Small block of mass m is placed on fixed wedge. (take $g equals 10 blank m s to the power of negative 2 end exponent$ ) The acceleration of pully $p subscript 4 end subscript$ is

In fig. all the pulleys and strings are massless and all the surfaces are frictionless. Small block of mass m is placed on fixed wedge. (take $g equals 10 blank m s to the power of negative 2 end exponent$ ) The acceleration of pully $p subscript 4 end subscript$ is

physics-General

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