What prevents an object from falling when it orbits the earth?

What prevents an object from falling when it orbits the earth?

The Short Answer: Gravity—combined with the satellite’s momentum from its launch into space—cause the satellite to go into orbit above Earth, instead of falling back down to the ground.

How do objects stay in orbit around the Earth?

How Do Objects Stay in Orbit? An object in motion will stay in motion unless something pushes or pulls on it. Without gravity, an Earth-orbiting satellite would go off into space along a straight line. With gravity, it is pulled back toward Earth.

Can Earth be pushed out of orbit?

No. The Earth has a lot of mass and moves extremely quickly in its orbit around the Sun; in science speak, we say its ‘momentum’ is large. To significantly change the Earth’s orbit, you would have to impart a very great change to the Earth’s momentum.

What keeps things in orbit?

That’s the effect of gravity. But it also travels forwards, at just the right speed, so that it the sideways movement compensates for the movement caused by the falling. So the orbiting thing stays the same distance away from what it’s orbiting around.

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Why does an object with a flat surface not move?

There is not enough air resistance to keep the object moving. There is not enough friction to keep the object moving. The object is not traveling fast enough to match Earth’s curvature. The object is traveling too fast to match Earth’s curvature. The object is not traveling fast enough to match Earth’s curvature.

How does tangential speed change throughout a satellite’s orbit?

Tangential speed changes throughout a satellite’s orbit. Centripetal force is perpendicular to the velocity of the satellite. Tangential speed increases with a satellite’s increasing distance from Earth. Centripetal force can sometimes slow down a satellite in orbit.

How did Kepler determine the shape of the orbits of planets?

Kepler initially assumed that the orbits of planets were circles, but doing so did not allow him to find orbits that were consistent with Brahe’s observations. Working with the data for Mars, he eventually discovered that the orbit of that planet had the shape of a somewhat flattened circle, or ellipse.

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Which best explains why astronauts appear weightless when they orbit Earth?

Which best explains why astronauts appear weightless when they are in a space shuttle orbiting Earth? They are falling toward Earth at the same rate as the space shuttle. They are falling toward Earth at a faster rate than the space shuttle. They are too far from Earth to experience gravity.