Assuming there is no skidding involved, one revolution of the wheel will move it forward a distance equal to the circumference of the wheel. This can be calculated according to the formula c = 2 * PI * r, where c is the circumference and r is the radius of the wheel (the distance between its axis or middle to any point on its surface).
Distance covered - 2199m Displacement - 200m Distance covered - 2199m Displacement - 200m
Linear distance of one revolution = 3.14 x diameter = 3.14 x 20 = 62.8 meters
Average speed = distance/time
There are one syllable in the word "wheels."
90 min is an hour-and-a-half. One-and-a-half times 50 is 75 miles.
The distance covered in one revolution of this circle is 481 meters.
Everyone differs on that one , but I'll go with 'span' .
Distance covered - 2199m Displacement - 200m Distance covered - 2199m Displacement - 200m
Linear distance of one revolution = 3.14 x diameter = 3.14 x 20 = 62.8 meters
An unspecified unit of speed.
Distance between these two is 12274 kms. One way is covered from above the pacific ocean. Other way is covered over the Indian Ocean.
The amplitude of the body is half of the distance covered in one vibration. In this case, the amplitude would be 10cm.
The distance covered by an object in the last second of its motion is equal to the object's velocity in meters per second. This means that if the object is moving at a constant velocity, the distance covered in the last second will be the same as the velocity.
The distance covered by a body will be equal to its displacement when the body moves in a straight line without changing direction. This occurs when the body moves from one point to another point in a straight path, as the distance covered will be the same as the displacement between the initial and final positions.
36 pi
It depends on your distance from the sun
The period of revolution of a planet is most closely related to its distance from the sun. The further a planet is from the sun, the longer it takes to complete one revolution.