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How does the orbit of a celestial body differ from its revolution around another object?
Well, darling, the orbit of a celestial body is the complete path it takes around another object, while its revolution refers specifically to the motion around that object. Basically, one is the big picture dance routine, and the other is just a fancy twirl around their dance partner.
What else can I help you with?
How does the orbit of a celestial body differ from its rotation?
The orbit of a celestial body refers to its path around another object, like a planet around a star. Rotation, on the other hand, is the spinning of the celestial body around its own axis. In simple terms, orbit is like the celestial body moving in a circle around something else, while rotation is like the celestial body spinning around like a top.
How does the rotation of a celestial body differ from its orbit around another object?
The rotation of a celestial body refers to its spinning on its axis, like how Earth rotates every 24 hours causing day and night. On the other hand, the orbit of a celestial body around another object, like Earth orbiting the Sun, involves the celestial body moving in a curved path around the other object due to gravitational forces. Rotation is like spinning in place, while orbit is like moving in a circle around something else.
How do blue star differ from the red star?
they are differ by their color they are also differ in temperature
If a rock has a mass of .15 kg on the moon what will the mass be on earth?
The mass of an object remains constant regardless of its location, whether on the Moon or Earth. Therefore, if a rock has a mass of 0.15 kg on the Moon, it will also have a mass of 0.15 kg on Earth. However, its weight will differ due to the varying gravitational forces on the two celestial bodies.
Is mass of the rock in the moon is the same as on earth?
The mass of a rock remains the same regardless of whether it is on the Moon or Earth; mass is an intrinsic property of matter. However, its weight will differ due to the varying gravitational forces exerted by each celestial body. The Moon's gravitational pull is about one-sixth that of Earth's, so a rock will weigh significantly less on the Moon than it does on Earth.
What is the differ for revolution and rotation?
Rotation refers to an object that spins on it's own axis. In contrast, revolution is an actual movement of a body or object around another. An example of a revolution is the earth revolving around the sun.
How does rotation differ from revolution?
Rotation is spinning on an object's axis. Revolution is orbiting around an external axis.
Why do planets differ in their length of revolution around the sun?
because each planet are different lengths away from the sun so if would then take longer periods of revolution around the sun
How does the orbit of a celestial body differ from its rotation?
The orbit of a celestial body refers to its path around another object, like a planet around a star. Rotation, on the other hand, is the spinning of the celestial body around its own axis. In simple terms, orbit is like the celestial body moving in a circle around something else, while rotation is like the celestial body spinning around like a top.
What ways are the french revolution and american revolution differ?
Nadia Iqbal.
What is a horseshoe orbit and how does it differ from other types of orbits around celestial bodies?
A horseshoe orbit is a type of orbit where an object moves in a path that resembles a horseshoe shape around a celestial body. This orbit differs from other types of orbits because the object does not continuously circle the celestial body, but instead appears to switch directions and move back and forth in a horseshoe pattern.
How does earths rotation differ from its revolution?
The word "rotation" is used when something turns around its own axis - which is inside the object. In the case of Earth, this happens once a day (more precisely, every 23h 56m). The word "revolution" is used when an object goes around another object. In the case of the Earth, the other object would be the Sun; it takes Earth a year to go around once.
How does rotation differ from it's revolution?
The word "rotation" is used when something turns around its own axis - which is inside the object. In the case of Earth, this happens once a day (more precisely, every 23h 56m). The word "revolution" is used when an object goes around another object. In the case of the Earth, the other object would be the Sun; it takes Earth a year to go around once.
Why does gravity differ from various celestial bodies?
Gravity depends both on mass and on distance.
Why do the planets differ in their speed of revolution around the sun?
Plantes differ in there speed around the sun because they are all different distances from the sun. The closest planet to the sun in our solar system takes much less time then the farthest because it has much less distance to go.
How does the rotation of a celestial body differ from its orbit around another object?
The rotation of a celestial body refers to its spinning on its axis, like how Earth rotates every 24 hours causing day and night. On the other hand, the orbit of a celestial body around another object, like Earth orbiting the Sun, involves the celestial body moving in a curved path around the other object due to gravitational forces. Rotation is like spinning in place, while orbit is like moving in a circle around something else.
How does a planets rotation differ from its period or revolution?
Rotation describes an orbit, which in the case of a planet is around the sun, whereas revolution means spinning on an axis. The Earth revolves on its axis once per day, and rotates around the sun once per year.
