Math, asked by praveensaini5678, 11 months ago

the mass of body is 40 kilogram find the weight of body on the surface of a Planet whose mass is doubled then the mass of the earth and radius is 4 times the radius of the earth​

Answers

Answered by uttamyadav13
0

Answer:

this question requires a lot a mathematical calculation..

Weight is 3272 kg.

I'm not sured ... it is possible that it may be incorrect

Answered by Anonymous
141

\bold{\underline{\underline{Answer:}}}

Weight of the body = 49 N

\bold{\underline{\underline{Step\:-\:by\:-\:step\:explanation:}}}

Given :

  • The mass of body is 40 kilogram
  • Mass of a planet is doubled the mass of the earth
  • Radius of the planet is 4 times the radius of the earth.

To find :

  • Weight of the body on the surface of the planet.

Solution :

For Earth :

Let M be the mass.

Let R be the radius.

G be the universal constant of gravitation.

Let g be the gravitational acceleration.

•°• g = \bold{\frac{GM}{R^2}} ---> (1)

For Planet :

Mass = 2M

Mass = 2MRadius = 4R

g' = Gravitational acceleration

•°• g' = \bold{\frac{G2M}{(4R) ^2}}

g'= \bold{\frac{G2M}{4R\times\:4R}}

g' = \bold{\frac{GM}{2R\:\times4R}}

g' = \bold{\frac{GM}{8R^2}} ---> (2)

From equation 1, g = \bold{\frac{GM}{R^2}}

g' = \bold{\frac{g}{8}}

g' = \bold{\frac{9.8}{8}}

g' = 1.225 m/s²

Now to calculate the weight of the body of mass 40 kg on planet, we will use the formula :-

\bold{\large{\red{\rm{W\:=\:mg}}}}

But since we are calculating the weight on the Planet, we will consider the value of g' instead of g.

•°• Formula :-

\bold{\large{\red{\rm{W\:=\:mg'}}}}

Now simply block in the values,

\bold{W\:=\:40\times\:1.225}

\bold{W\:=\:49N}

•°• Weight of the body on Planet will be 49 N.

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