a satellite is moving in 36000km if it takes 24 hour what will be the speed?

Since it's a satellite in the question is it moving in a circular motion?

ALSO... Is the 36,000 km the radius of the orbit or is it the height of the satellite from

Earth's surface?

If it's the radius of the orbit, then ...
R = orbital radius = 36,000 km = 36,000,000 m

Since the orbit is specified as being circular, then ...
C = circumference = to be determined

C = 2πR
C = 2∙3.14159∙36,000,000 m
C = 226,194,671 m

t = 24 h = 24∙3,600 s = 86,400 s

s = speed = to be determined
s = C/t
s = 226,194,671 m / 86,400 s
s = 2,618 m/s = 2.6 km/s ANSWER

If it's the height of the satellite from Earth's surface, then...
h = height from Earth's surface = 36,000 km = 36,000,000 m
r = radius of Earth = 6,371 km = 6,371,000 m
R = total orbital radius = to be determined

R = r + h = 6,371,000 m + 36,000,000 m
R = 42,371,000 m

Since the orbit is specified as being circular, then ...
C = circumference = to be determined

C = 2πR
C = 2∙3.14159∙42,371,000 m
C = 266,224,845 m

t = 24 h = 24∙3,600 s = 86,400 s

s = speed = to be determined
s = C/t
s = 266,224,845 m / 86,400 s
s = 3,081 m/s = 3.1 km/s ANSWER

To find the speed of the satellite, we need to divide the distance it covers by the time it takes. In this case, the satellite travels a distance of 36,000 km in 24 hours.

Speed = Distance / Time

Substituting the given values:

Speed = 36,000 km / 24 hours

Simplifying the equation:

Speed = 1,500 km/hour

Therefore, the speed of the satellite is 1,500 kilometers per hour.