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Physics

Mechanics

Easy

Question

A triple star system consists of two stars, each of mass m , in the same circular orbit about central star with mass $M equals 2 cross times 10 to the power of 30 kg$ . The two outer stars always lie at opposite ends o fa diameter of their common circular orbit. The radius of the circular orbit is $r equals 10 to the power of 11 m$ and the orbital period of each star is $1.6 cross times 10 to the power of 7 straight s$

$text [Take end text pi squared equals 10 text and end text open G equals 20 over 3 cross times 10 to the power of negative 11 end exponent Nm squared kg to the power of negative 2 end exponent close square brackets$
The mass m of the outer star is

$\frac{16}{15} \times 10^{30} kg$
$\frac{11}{8} \times 10^{30} kg$
$\frac{15}{16} \times 10^{30} kg$
$\frac{8}{11} \times 10^{30} kg$

The correct answer is: $11 over 8 cross times 10 to the power of 30 kg$

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Column II

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ii. Minimum distance of particle from the earth
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Column II

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Paragraph
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Time period of oscillation of the object is

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A frictionless tunnel is dug along a chord of the earth of at a perpendicular distance R/2 from the centre of earth (where R is radius of earth). An object is released from one end of the tunnel.

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A frictionless tunnel is dug along a chord of the earth of at a perpendicular distance R/2 from the centre of earth (where R is radius of earth). An object is released from one end of the tunnel.

The correct graph, showing the variation of magnitude of acceleration of object with its distance from centre of earth is

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