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Question

If the angular velocity of the earth's spin is increased such that the bodies at the equator start floating, the duration of the day would be approximate.


A

60 minutes

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B

does not change

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C

84 minutes

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D

1200 minutes

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Solution

The correct option is C

84 minutes


Step 1: Given data

Acceleration due to gravity, g=10ms-2

The radius of the earth, R=6400×103m

π=3.14

Step 2: Formulas used

For a body to achieve weightlessness, the force due to gravity must equal the centripetal force generated by earth's rotation. That is,

Fg=Fc where Fg is the gravitational force and Fc is the centripetal force.

We know that Fg=mg where m is the mass of the body and g is the acceleration due to gravity.

We know that Fc=mω2r where ω is the angular velocity and r is the distance of object from the axis of rotation.

Time period of rotation is given as,
T=2πω

Step 3: Calculate angular velocity.

As established,
Fg=Fcmg=mω2rFg=mg,Fc=mω2rω=grω=106400×103r=R=6400×103m,g=10ms-2ω=1800s-1

Step 4: Calculate the duration of day

The duration of the day is the time period of the rotation of the earth.

Substituting the expression for angular velocity in the time period equation,

Thus,
T=2π1800=2π×800T5027s

Converting to minutes,
5027s84minutes

Therefore, if the angular velocity of the earth's spin is increased such that the bodies at the equator start floating, the duration of the day would be approximately 84minutes.

Hence, option C is correct.


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