Speed must be specified relative to something. Relative to the Sun, the speed of Earth is about 30 km/second. Relative to the Milky Way, or relative to the Local Group, you would get different numbers.
Earth's rotation speed is gradually decreasing, as a result of the tides.
Yes, they are the same speed.
In the case of a solid rotating object, the rotational speed is the same for all parts. The linear speed is greatest at points that are furthest from the axis of rotation - in other words, at the equator.
Yes, the effect is due not to the Sun moving but to the Earth rotating and the speed of rotation of the Earth is constant.
It depends where you are on the earth, specifically how far north or south of the equator. At the north or south pole, the speed of rotation is zero. The fastest rotational speed occurs at the equator, where a fixed point rotates the entire circumference of the earth in 24 hours. The speed is about 1,040 miles per hour.
Yes, that is the approximate speed of Earth, as it goes around the Sun. The exact speed depends on whether Earth is at periapsis or apapsis, but 30 km/sec. is a good approximation.Yes, that is the approximate speed of Earth, as it goes around the Sun. The exact speed depends on whether Earth is at periapsis or apapsis, but 30 km/sec. is a good approximation.Yes, that is the approximate speed of Earth, as it goes around the Sun. The exact speed depends on whether Earth is at periapsis or apapsis, but 30 km/sec. is a good approximation.Yes, that is the approximate speed of Earth, as it goes around the Sun. The exact speed depends on whether Earth is at periapsis or apapsis, but 30 km/sec. is a good approximation.
More speed means more energy. A certain amount of energy is required to get away from Earth. At a lesser speed, it will simply fall back to Earth.More speed means more energy. A certain amount of energy is required to get away from Earth. At a lesser speed, it will simply fall back to Earth.More speed means more energy. A certain amount of energy is required to get away from Earth. At a lesser speed, it will simply fall back to Earth.More speed means more energy. A certain amount of energy is required to get away from Earth. At a lesser speed, it will simply fall back to Earth.
Yes,because it is reasonable
That depends on the speed. The circumference of the Earth is 40,000 km. Decide on a speed, then divide this distance by the speed. If the speed is in km/hour, the time will be in hours.
The escape speed from the surface of the Earth is about 11.2 kilometers per second (about 25,000 miles per hour). This is the speed at which an object must travel to break free from the Earth's gravitational pull and not fall back down.
The earth's orbital speed has no influence or effect on its rotation.
Earth's rotation speed is gradually decreasing, as a result of the tides.
The Moon orbits Earth at an average speed of 3,700 km/h (2,300 mph).
The average linear speed of Earth with respect to the sun is about 29.78 km/sec.
To get the speed of the Earth's revolution at the equator, you divide the Earth's circumference (about 40,000 km) by the time it takes for one revolution (about 24 hours).
Mars has a similar rotation speed as the Earth - 24 hours and 38 minutes.
Nothing to do with earth - speed of light does not matter where it is - and is just over 186,000 miles per second.