Orbital Period Of A Satellite Calculator

Orbit of a satellite calculator high accuracy calculation welcome guest.

Orbital period of a satellite calculator.

Velocity v square root g m r where g is a gravitational constant m is the mass of earth or other larger body and radius is the distance at which the smaller mass object is orbiting. Orbital height m metric pm nm microns µm mm cm km imperial mil 1 16 inch inches feet yards miles scientific planck bohrs angstrom light seconds light years au parsecs other points cubits fathoms rods. For objects in the solar system this is often referred to as the sidereal period determined by a 360 revolution of one celestial. Highlight the s and type h.

This eliminates the need for continuous repositioning of satellite receiving dishes because even though the satellite is moving it stays in the same position relative to the earth. It s semi major axis is 1 light year. The calculator gives you an answer of 5830 318 s. What is the satellite s orbital period in hours.

Shows how to calculate the orbital period of a satellite. The injection δv value is the delta v required to move from the. Calculates the orbital radius and period and flight velocity from the orbital altitude. P is the orbital period.

How many miles above the surface of the earth will this satellite orbit. The calculator gives you an. Choose mi for the answer s units. The formula for orbital speed is the following.

Given that the earth s mass is 5 9736x10 24 kilograms and that the satellite s orbital period must be 86 400 seconds one day what altitude is required for a. The satellite must have a period of 12 hours. The equation for orbital period is derived from newton s second law and newton s law of universal g. The period of a satellite is the time it takes it to make one full orbit around an object.

Astronomers discover a distant planet orbiting the sun. Enter 12 h for p and 1 m earth for m and 1 r earth for r. The orbital period is the time a given astronomical object takes to complete one orbit around another object and applies in astronomy usually to planets or asteroids orbiting the sun moons orbiting planets exoplanets orbiting other stars or binary stars. Enter 7000 km for a and 1 me for m.

Mission control wishes to place a satellite in circular orbit above the earth. This is useful for setting up things like commnet constellations. It now gives you an answer of 1 6195 hr. You can calculate the speed of a satellite around an object using the equation.

This calc determines the speed and orbital period of a satellite at a given height above average earth sea level. The period of the earth as it travels around the sun is one year.