Here is the calculation:
P squared = A cubed
P squared = 3.36 cubed
P squared = 37.9330
P = 6. 1589
According to Kepler's law, the expression P2/a3 is approx equal to 4pi2/GM where P = period,a = average orbital distance = 0.39 AU = 58,343,169,871 metresG = universal gravitational constant = 6.67408*10^-11 m3 kg-1 s-2M = mass of the Sun = 1.989*1030 kilograms.Substituting these values into the expression and solving givesP2 = 59061382597774 seconds2 which implies that P = 7685140 seconds. This equals 88.9 Earth days.
Mercury's average distance from the sun in the course of a complete revolution is 58 million km. Venus' average distance from the sun in the course of a complete revolution is 108.2 million km. The difference is (108.2 - 58) million = 50.2 millionkilometers.
Mars' average distance from the sun during the course of a complete orbital revolution is 141.6 million miles. That's about 52% farther than the earth's average distance from the sun.
The moon's average distance from earth during the course of one complete orbital revolution (a month) is 384,401,000meters (rounded).
The average distance of Chiron to the sun is 1224,557km away
Average speed = (distance covered) divided by (time to cover the distance)
The same way you calculate the average speed of any object. You divide distance by time.
The average speed is the ratio between the distance and time.
you calculate average speed by dividing the total distance to the total time.
Average speed.
Average speed during the time = (distance) divided by (time for that distance)
the average speed is the total distance traveled divided by the total time.
Need average speed and distance to calculate.
distance travelled and time taken average speed = distance/time
Cyclists average speed = (total distance of the race)/(time it took him, from starting gun to finish line)
According to Kepler's law, the expression P2/a3 is approx equal to 4pi2/GM where P = period,a = average orbital distance = 0.39 AU = 58,343,169,871 metresG = universal gravitational constant = 6.67408*10^-11 m3 kg-1 s-2M = mass of the Sun = 1.989*1030 kilograms.Substituting these values into the expression and solving givesP2 = 59061382597774 seconds2 which implies that P = 7685140 seconds. This equals 88.9 Earth days.
Speed = Distance/time = 20m/3.18s =6.29ms-1