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Question

If the earth were a perfect sphere of radius 6.4×106 m rotating about its axis with the period of one day (8.64×104 sec), what is the difference in acceleration due to gravity on poles and the equator?


A
338×106 m/s2
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B
338×104 m/s2
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C
338×102 m/s2
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D
None of these
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Solution

The correct option is B 338×104 m/s2

Let suppose gp and ge are the acceleration due to gravity on poles and equator of earth.

Radius of earth, R=6.4×106 m

Time period of rotation, T=8.64×104 s

Variation of g with latitude due to rotational motion of earth is given by

g=(gω2Rcos2ϕ)

where, ϕ is latitude.

At pole, ϕ=90

gp=g

And at the equator, ϕ=0

ge=gω2R

So, difference in acceleration will be

gpge=g(gω2R)=ω2R

gpge=(2πT)2R=(2π8.64×104)2×6.4×106

gpge=3.38×102=338×104 m/s2

Hence, option (b) is correct.

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