It's lifted into space by a big rocket.
The primary body in the context of an elliptical orbit, such as that of the Maverick weather satellite, is typically Earth. The satellite orbits around Earth in an elongated path, with Earth located at one of the two foci of the ellipse. This means that the distance between the satellite and Earth varies throughout the orbit, resulting in the satellite moving faster when it is closer and slower when it is farther away.
The polar orbit so that it can measure cold and hot points around the entire earth :)
The orbit helps the satellite go into orbit.
Polar Orbit
Correct answer= "satellite"
The primary body, earth, is at the foci point closest to the pedigree. At the pedigree the radius is shorter than it is at the apogee.
A satellite is an object in orbit around a planet. Satellites can be natural, like moons, or artificial, like spacecrafts launched by humans for communication, weather monitoring, or scientific research purposes.orbited around a planet.
The mass of a satellite does not affect its orbit. The orbit of a satellite is determined by its speed and the gravitational pull of the object it is orbiting around, such as a planet. The mass of the satellite itself does not play a significant role in determining its orbit.
Geostationary Earth-Orbiting Weather Satellites
A satellite orbits Earth and can be used to monitor or communicate with objects on the ground. For example, a weather satellite can track storms and communicate weather data to ground stations for analysis and forecasting. In essence, a satellite and an object work together through information exchange and monitoring capabilities facilitated by the satellite's orbit around Earth.
A satellite in Geosychronous Earth Orbit (GEO) orbits the Earth in the same time period that the Earth spins, so the satellite appears to be stationary over one spot above the Earth's equator. It's always looking down at the same area of the Earth. A satellite in a polar orbit will pass quickly over any one spot on Earth and keep going. It can't watch the same area for a long period. Depending on the altitude of the orbit, it may take days or weeks to pass over the same area again. However, polar orbits are typically much lower, permitting a much higher resolution image. This is very important for photo imagery, but not so much for weather.
From the question, I'm guessing that when the questioner reads the term "polar orbit", he's picturing the satellite doing a little tiny circle in the sky over the North Pole. This is not an accurate understanding of the term. Remember that the center of the orbit of an artificial satellite has to be at the center of the earth. A 'polar orbit' is an orbit that covers both poles. If you picture the globe of the earth, the satellite's orbit is a circle standing up, with the satellite traveling up and down, passing over both poles in each complete revolution of the earth. As the earth rotates, every point on earth passes under the orbit, and sooner or later, every point on earth will be visible from the satellite.