Question

Q. A Satellite revolves Round a planet in
circular orbit at altitude of 1.2 x 10^6 m
if the acceleration due
to gravity at the height from
The surface of the planet is
6m/s^2 the
critical speed of the Satellite
is. (Radius of planet = 4800km)​

Answer 1

Answer:

r

2

GMm

=mω

0

2

r

⇒GM=ω

0

2

r

3

⇒gR

2

=ω

0

2

r

3

⇒g=

R

2

ω

0

2

r

3

Answer 2

Answer:

Mass of the Earth, M=6.0×10

24

kg

m=200 kg

R

e

=6.4×10

6

m

G=6.67×10

−11

Nm

2

kg

−2

Height of the satellite,h=400 km=4×10

5

m

Total energy of the satellite at height h=(1/2)mv

2

+(−G

(R

e

+h)

M

e

m

)

Orbital velocity of the satellite, v=

R

e

+h

GM

e

Total energy at height h =

2

1

R

e

+h

GM

e

m

−

R

e

+h

GM

e

m

Total Energy=−

2

1

R

e

+h

GM

e

m

The negative sign indicates that the satellite is bound to the Earth.

Energy required to send the satellite out of its orbit = – (Bound energy)

=

2(R

e

+h)

GM

e

m

=

2(6.4×10

6

+4×10

5

)

6.67×10

−11

×6×10

24

×200

=5.9×10

9

J

If the satellite just escapes from the gravitational field, then total energy of the satellite is zero. Therefore, we have to supply 5.9×10

9

J of energy to just escape it.

Explanation:

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