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Which part of earth's surface has the greatest rotational speed about Earth's axis. Which part has the greatest linear speed relative to Earth's axis?
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.
Can you go around the earth if you can float above as the earth rotates?
Gravity would keep you in place if you were just hanging there. Without gravity you would have nothing to keep you in place and you probably would be able to simply hover and 'travel the world' as the planet rotated.
How would the tides on earth be different if the moon revolves around earth in 15 days instead of 30 days?
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
How would the tides on earth different if the moon revolved around earth in 15 days instead of 30 days?
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
What is true about the moon's orbit around Earth?
The moon's orbital period is the same as its rotational period, so the same side of the moon always faces the earth.
Which part of earth's surface has the greatest rotational speed about Earth's axis. Which part has the greatest linear speed relative to Earth's axis?
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.
Can you go around the earth if you can float above as the earth rotates?
Gravity would keep you in place if you were just hanging there. Without gravity you would have nothing to keep you in place and you probably would be able to simply hover and 'travel the world' as the planet rotated.
Is the rotational period of other planets the same as that of the earth?
No. They are all different
What is the relationship between disk rotational inertia and the speed at which a disk spins?
The relationship between disk rotational inertia and the speed at which a disk spins is that the rotational inertia of a disk affects how quickly it can change its speed when a torque is applied. A disk with higher rotational inertia will spin more slowly for a given torque, while a disk with lower rotational inertia will spin faster for the same torque.
What is the speed limit on the same road at night?
the same speed
How the day and night appear to a man who moves in a speed same of earth from east to west?
It does not change at all for that man.
How would the tides on earth be different if the moon around earth in 15 days instead of 30 days?
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
How would the tides on earth be different if the moon revolved around earth in 15 instead of 30 days?
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
How would the tides on earth be different if the moon revolved around earth in 15 days instead of 30?
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
How would the tides on earth be different if the moon revolves around earth in 15 days instead of 30?
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
What is true of the Moon's orbital and rotational periods?
The Moon's orbital period (time to orbit Earth) is about 27.3 days, which is the same as its rotational period (time to rotate once on its axis). This synchronous rotation is why we always see the same face of the Moon from Earth.
Which has greater rotational speed the shoulders or the fingertips of a figure skater spinning with her arms held straight out?
The fingertips of a figure skater spinning with her arms held straight out have a greater rotational speed compared to her shoulders. This is because the fingertips travel a greater distance in the same amount of time as the shoulders, leading to a higher angular velocity.
