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Physics-

General

Easy

Question

A uniform disc of mass m is attached to a spring of spring constant k as shown in figure and there is sufficient friction to prevent slipping of disc. Time period of small oscillations of disc is:

$2 π \sqrt{\frac{m}{k}}$
$2 π \sqrt{\frac{2 m}{3 k}}$
$π \sqrt{\frac{3 m}{2 k}}$
$π \sqrt{\frac{2 m}{3 k}}$

The correct answer is: $2 pi square root of fraction numerator 2 m over denominator 3 k end fraction end root$

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A massless stick of length L is hinged at one end and a mass m attached to its other end. The stick is free to rotate in vertical plane about a fixed horizontal axis passing through frictionless hinge. The stick is held in a horizontal position. At what distance x from the hinge should a second mass M = m be attached to the stick, so that stick falls as fast as possible when released from res

A massless stick of length L is hinged at one end and a mass m attached to its other end. The stick is free to rotate in vertical plane about a fixed horizontal axis passing through frictionless hinge. The stick is held in a horizontal position. At what distance x from the hinge should a second mass M = m be attached to the stick, so that stick falls as fast as possible when released from res

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The natural frequency of the system shown in figure is: {The pulleys are smooth and massless.}

The natural frequency of the system shown in figure is: {The pulleys are smooth and massless.}

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A uniform thin hemispherical shell is kept at rest and in equilibrium on an inclined plane of angle of inclinationq = 30º as shown inf figure. If the surface of the inclined plane is sufficiently rough to prevent sliding then the angle a made by the plane of hemisphere with inclined plane is :

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All sides of an equilateral triangle are diameter of three identical uniform semicircular rings each of mass m. Plane of each ring is perpendicular to the plane of paper. Then moment of inertia of this system of three semicircular rings about an axis through centroid of triangle and perpendicular to plane of paper is : (A) 24 5ma

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Find the natural frequency of oscillation of the system as shown in figure. Pulleys are massless and frictionless. Spring and string are also massless. (Take p² = 10)

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A square loop of side ‘a’ is placed in x – y plane as shown in figure. In this region there is non-uniform time dependent magnetic field $stack B with rightwards arrow on top equals open parentheses c y to the power of 3 end exponent t to the power of 2 end exponent close parentheses stack k with hat on top$ [where t is time and c is constant] then magnitude of emf induced in loop is

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Chemistry-General

Inversion of a sugar follows first order rate equation which can be followed by noting the change in rotation of the plane of polarisation of light in a polarimeter. If 1:", li and '0 are the fotations at t = 00, t = t and t = 0, then first order reaction can be written as:

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A substance undergoes first order decomposition. The decomposition follows two parallel first order reactions as: $A stretchy sum from k subscript 2 end subscript superscript 2 end superscript C to k subscript 1 end subscript B of k subscript 1 end subscript equals 1.26 cross times 10 to the power of negative 4 end exponent s to the power of negative 1 end exponent text and end text k subscript 2 end subscript equals 3.8 cross times 10 to the power of negative 5 end exponent s to the power of negative 1 end exponent$ The percentage distributions of Band Care:

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Chemistry-General

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