Mass of a body is……….of………………of the body...

Mass of a body is……….of………………of the body……………..

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To solve the question, we need to fill in the blanks regarding the relationship between mass and inertia in the context of linear motion. Here’s a step-by-step solution: ### Step 1: Understanding Mass - Mass is a fundamental property of a body that quantifies the amount of matter it contains. It is also a measure of the body's resistance to acceleration when a force is applied. ### Step 2: Defining Inertia - Inertia is the tendency of an object to resist changes in its state of motion. The greater the mass of an object, the greater its inertia. ...

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PRADEEP-SYSTEMS OF PARTICLES AND ROTATIONAL MOTION-FILL IN THE BLANKS

Centre of mass of a body is ……… at which………….is………… .
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In certain cases, there may…………at the………… .
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Total linear momentum of a system of particles is equal to ……………..of t...
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The vector product of two vectors overset rarr(A) and overset rarr(B) ...
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By convention, anticlockwise moments are ………and…………are taken as…………. .
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Torque due to a force is the product of………….and……………..of line of actio...
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Torque due to a force is the product of………….and……………..of line of actio...
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Angular momentum of a particle…………..is……………..of the particle………….. .
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Angular momentum of a particle about a given axis is …………….of ………….and...
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The centre of gravity of a body is a point where………..and…………on the bod...
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Mass of a body is……….of………………of the body……………..
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A quantity that measures……….of the body is called………..of the body.
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Radius of …………..of a body about a given axis is equal to…………of the con...
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When…………..acts on a system of particles, then………….of the system remain...
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When……………is conserved,………………may……………. .
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Moment of inertia of a uniform circular ring of mass M and radius R ab...
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Moment of inertia of a circular ring about a given axis is…………..moment...
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The rate of …………….of a body about a given axis is…………….to…………….applied...
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Rotational analogue of……………is…………….. .
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Angle traced by a rotating body in nth seconds is theta(nth)=…………where...
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