Physics, asked by drastilimbani2003, 11 months ago

calculate height of satellite if time period is 100 days​

Answers

Answered by krishsaini82
0

open your Google and search your question find your answer

Answered by siddhu2156
0

Answer:

BrandToggle navigation

EducationSciencePhysicsHow to Calculate the Period and Orbiting Radius of a Geosynchronous Satellite

How to Calculate the Period and Orbiting Radius of a Geosynchronous Satellite

Physics I For Dummies, 2nd Edition

RELATED BOOK

Physics I For Dummies, 2nd Edition

By Steven Holzner

When a satellite travels in a geosynchronous orbit around the Earth, it needs to travel at a certain orbiting radius and period to maintain this orbit. Because the radius and period are related, you can use physics to calculate one if you know the other.

The period of a satellite is the time it takes it to make one full orbit around an object. The period of the Earth as it travels around the sun is one year. If you know the satellite’s speed and the radius at which it orbits, you can figure out its period.

You can calculate the speed of a satellite around an object using the equation

The satellite travels around the entire circumference of the circle — which is

if r is the radius of the orbit — in the period, T. This means the orbital speed must be

image2.png

giving you

image3.png

If you solve this for the period of the satellite, you gets

You, the intuitive physicist, may be wondering: What if you want to examine a satellite that simply stays stationary over the same place on the Earth at all times? In other words, a satellite whose period is the same as the Earth’s 24-hour period? Can you do it?

Such satellites do exist. They’re very popular for communications because they’re always orbiting in the same spot relative to the Earth; they don’t disappear over the horizon and then reappear later. They also allow for the satellite-based global positioning system, or GPS, to work.

In cases of stationary satellites, the period, T, is 24 hours, or about 86,400 seconds. Can you find the distance a stationary satellite needs be from the center of the Earth (that is, the radius) to stay stationary? Using the equation for periods, you see that

image5.png

BrandToggle navigation

EducationSciencePhysicsHow to Calculate the Period and Orbiting Radius of a Geosynchronous Satellite

How to Calculate the Period and Orbiting Radius of a Geosynchronous Satellite

Physics I For Dummies, 2nd Edition

RELATED BOOK

Physics I For Dummies, 2nd Edition

By Steven Holzner

When a satellite travels in a geosynchronous orbit around the Earth, it needs to travel at a certain orbiting radius and period to maintain this orbit. Because the radius and period are related, you can use physics to calculate one if you know the other.

The period of a satellite is the time it takes it to make one full orbit around an object. The period of the Earth as it travels around the sun is one year. If you know the satellite’s speed and the radius at which it orbits, you can figure out its period.

You can calculate the speed of a satellite around an object using the equation

Trending in

Science

How to Calculate Time and Distance from Acceleration and Velocity How to Find a Vector’s Magnitude and Direction The Anatomical Regions of the Body

VIEW ALL

image0.png

The satellite travels around the entire circumference of the circle — which is

image1.png

if r is the radius of the orbit — in the period, T. This means the orbital speed must be

image2.png

giving you

image3.png

If you solve this for the period of the satellite, you get

image4.png

You, the intuitive physicist, may be wondering: What if you want to examine a satellite that simply stays stationary over the same place on the Earth at all times? In other words, a satellite whose period is the same as the Earth’s 24-hour period? Can you do it?

Such satellites do exist. They’re very popular for communications because they’re always orbiting in the same spot relative to the Earth; they don’t disappear over the horizon and then reappear later. They also allow for the satellite-based global positioning system, or GPS, to work.

In cases of stationary satellites, the period, T, is 24 hours, or about 86,400 seconds. Can you find the distance a stationary satellite needs be from the center of the Earth (that is, the radius) to stay stationary? Using the equation for periods, you see that

image5.png

Plugging in the numbers, you get

image6.png

If you take the cube root of this, you get a radius of

image7.png

This is the distance the satellite needs to be from the center of the Earth. Subtracting the Earth’s radius of

image8.png

you get

image9.png

which converts to about 22,300 miles. This is the distance from the surface of the Earth geosynchronous satellites need to orbit. At this distance, they orbit the Earth at the same rate the Earth is turning, which means that they stay put over the same piece of real estate.

In practice, it’s very hard to get the speed just right, which is why geosynchronous satellites have either gas boosters that can be used for fine-tuning or magnetic coils that allow them to move by pushing against the Earth’s magnetic field.

Similar questions