Polar Orbit



A satellite follows a polar orbit when it travels around a structure, such as a planet or star, on a path that crosses above both poles of the structure. A satellite is a body in space, either man-made or natural, that orbits another body. For example, the moon is a natural satellite that orbits the Earth. The moon, however, is not an example of a polar orbit because it does not pass over both the north and south poles of the Earth. Several man-made satellites, such as mapping satellites and reconnaissance satellites, do follow such a path.

See full list on nasa.fandom.com. The polar satellites revolve around the Earth in a north-south orbit passing over the poles as the Earth spins about its north-south axis. It is a satellite whose orbit is perpendicular or at right angles to the equator, or in simple words it passes over the north and south poles as it orbits the earth.

Bodies in a polar orbit around the Earth stay roughly at roughly a ninety degree angle from the equator. A latitude is a location point in reference to its distance north or south of the equator and a longitude is a location point in reference to its distance from the prime meridian, or the midline that divides Earth into Eastern and Western hemispheres. Imagine the globe was perfectly centered on a grid so that the vertical Y axis runs from the North Pole to the South Pole on the prime meridian and the horizontal X axis runs along the equator. A longitudinal line, a line parallel to the Y axis or prime meridian, can cross every Y coordinate, but stays fixed on one X coordinate.

One would imagine that a satellite polar orbit would follow an exact longitudinal line from pole to pole, crossing every longitudinal point on the Y axis and staying on one X coordinate, or at a fixed distance from the prime meridian. Because the Earth is constantly spinning, however, the line traced by a satellite in polar orbit may move straight from pole to pole in space, but does not follow a straight longitudinal line on Earth. Imagine drawing a line from pole to pole on a still toy globe. Now imagine spinning the globe and trying to draw a straight line from pole to pole. The line would come out diagonal, crossing many longitudes.

Over the course of a day, a polar orbit around Earth will cross every longitude in its travels from pole to pole. This makes a polar orbit an attractive choice for man-made satellites that need to observe every point on Earth. Mapping satellites used to create images of the entire globe, are commonly launched into a polar orbit, as are spy satellites, also called reconnaissance satellites. Some weather satellites are also launched on this path, but polar orbits are not ideal for weather satellites that seek to observe a particular region continuously.

Sometimes the orbit of a satellite is structured in such a way that the satellite moves across the Earth at the same pace as the sun. This is called a sun-synchronous orbit. As a satellite in sun-synchronous orbit passes over any given point on Earth, it will be the same local time, making it possible to observe the entire globe at a constant solar time of day. This is often combined with a polar orbit, especially in satellites designed to measure the temperature in the atmosphere.

SpaceX launches SAOCOM-1B satellite from Cape Canaveral into polar orbit

The weather was iffy all day but the heavens parted for just a moment and allowed the Falcon 9 to take flight south and make history as the first rocket to launch a satellite into a polar orbit from Cape Canaveral in 60 years.

Polar Orbit Advantages

Most rockets launching from the Space Coast travel east over the ocean but to reach for polar orbit, the Falcon 9 had to veer south. A polar orbit is just what it sounds like – the satellite orbits around the North and South poles – which is better for imaging, spy and weather satellites.

© Craig Bailey / FLORIDA TODAY A SpaceX Falcon 9 rocket launches from Cape Canaveral Air Force Station on Sunday, Aug. 30, 2020 with the SAOCOM-1B commercial communications satellite. It marked the first polar orbit mission from Florida since the 1960s.

The Falcon 9 carried an Earth observation satellite called SAOCOM-1B equipped with radar to help it predict and monitor natural disasters for the Argentinian government. Two smaller payloads, Tyvak-0172 and PlanetiQ’s GNOMES-1, also caught a ride to space aboard the Falcon.

The southern trajectory meant that bystanders all down the coast of Florida got the opportunity to see the launch as the rocket headed toward them instead of away. But storm clouds prevented many from getting a good view.

Palm Beach resident James Weiland took his frustration to Twitter and wrote, 'So bummed we didn’t get to see the launch! Stupid storms! I mean when is the next time one will go south?'

Less than eight minutes after launch the rocket barreled past Miami and onward to Cuba.

Seconds after that, space fans were also treated to a symphony of sonic booms heralding the landing of the Falcon 9 booster at SpaceX's Landing Zone 1 a few feet from the beach. SpaceX hasn't returned a booster to land in six months but has instead send ships out to sea to fetch them.

Polar

Polar Orbiting Satellites Quizlet

© MALCOLM DENEMARK/FLORIDA TODAY People at Cherie Down Park in Cape Canaveral watch the launch and booster landing of the SpaceX Falcon 9 rocket carrying an Argentinian communications satellite known as SAOCOM-1B. The rocket launched from Launch Complex 40 at Cape Canaveral Air Force Station at 7:18 p.m. with booster landing about eight minutes later.

The historic launch and booster landing caught the eye of local resident and Apollo 11 astronaut Buzz Aldrin who tweeted photos from his backyard and a congratulatory 'well done SpaceX.'

Making history with this polar orbit launch could mean more business for the Elon Musk-led company and his competitors. Until now, most American rockets aiming for a polar orbit have launched from Vandenberg Air Force Base in California in order to avoid traveling over populated areas.

In 2018, the 45th Space Wing certified SpaceX's automated flight termination system and granted vehicles using that system authorization to launch into a polar orbit from the Cape. Right now, only the Falcon 9 and Falcon Heavy are capable but soon SpaceX’s Starship, Blue Origin’s New Glenn, and ULA’s Vulcan will have similar automatic flight termination systems. This means we could see even more traffic at the Cape for those heading into a polar orbit.

Polar Orbiting Weather Satellite

© Craig Bailey/FLORIDA TODAY A SpaceX Falcon 9 rocket launches from Cape Canaveral Air Force Station on Sunday, Aug. 30, 2020 with the SAOCOM-1B commercial communications satellite. It marked the first polar orbit mission from Florida since the 1960s.

The successful launch of the SAOCOM satellite capped a busy week of rocket reshuffling in which two launches cancelled. Early Saturday morning United Launch Alliance’s Delta IV Heavy aborted at the last second due to technical issues. Then Sunday morning SpaceX pulled the plug on sending another batch of Starlink satellites to space due to inclement weather.

SpaceX will attempt the launch of its 12th batch of Starlink satellites Tuesday morning from Kennedy Space Center.

Contact Rachael Joy at 321-242-3577. Follow her on Twitter @Rachael_Joy.

Kerbal Polar Orbit

This article originally appeared on Florida Today: SpaceX makes history with first polar orbit launch from Cape Canaveral in decades