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Here we will use the following formula velocity of the satellite v = 2πr/T here r is the radius of the circular path travelled by the satellite = 42250 km and T is the time period = 24 hrs. here, the distance travelled by the satellite in 24 hrs would be the circumference of the circular path of radius 42050 . so, v = (2 X 3.14 X 42050) / 24 = 264074 / 24 :)
The fifth largest natural satellite in the Solar System is our moon with a radius of 1,737.1 kilometers.
Jupiter, with the moon Ganymede that has a radius of 2,634.1 kilometers.
As far as I know, there is no simple relationship between the two. Not much is known yet about planets orbiting other stars, so I don't think there are sufficient statistics about this either.
Yes. T = (2pi / sqroot of GM) multiplied by the radius^3/2. A planets mass DOES NOT affect its orbital period. A planets radius DOES affect its orbital period.
The relationship between the radius and the diameter of a circle is that: radius = diameter /2
The relationship between the radius and area of a circle is as follows: Area of circle = 3.14 x Radius x Radius or 22/7 x Radius x Radius
tru
The radius is half the diameter of a circle.
You must use the relationship between the inner radius and the outer radius. The relationship could very well be different every time you run into a problem like this, and I can't answer the question this time because you haven't described any relationship between them.
The radius is excatly half of the diameter
In relation to the area of a circle: pi*radius^2
The relationship between the chord and the radius of the circle is Length of the chord = 2r sin(c/2) where r = radius of the circle and c = angle subtended at the center by the chord
A tangent line is always perpendicular to the radius.
Flow rate= radius to the fourth power
There is no relationship between the atomic radius and you knowing it.
The diameter of a circle if twice the length of the radius.