30 times as much, since a minute has 60 seconds.
The object is moving at the speed of 50 ms-1 .
10 metres in 5 seconds or 2 metres per second.
It is impossible for a human being on foot to travel 1/4 mile in 17 seconds. However, if he could, he would be moving at about 53 miles per hour or 4,664 feet per minute.
The minute hand is the largest hand on most analogue clocks. At 3 o'clock on a 12-hour clock, the minute hand is pointing straight up to the 12. It measures time to the nearest minute by advancing one of the small minute hash marks every 60 seconds. Every time the second hand makes one full sweep of the clock face, the minute hand advances one of the minute marks. The second hand is the fastest moving hand on a standard analogue clock, making one full sweep every 60 seconds.
Planck's constant relates the energy level of radiation due to electrons moving from one energy level to another, by the formula Energy = (Planck's constant) x (frequency of radiation). Therefore the dimensions of Planck's constant are (energy)/(frequency) which means Joules x seconds In fact Planck's constant = 6.67 x 10-34 joule.seconds.
The object is moving at the speed of 50 ms-1 .
An object moving at a constant speed travels the same distance in equal units of time. This is known as uniform motion.
At 56.39 metres per minute.
If a car moving in a straight line travels equal distance in equal time no matter how small these distances may be, the car is said to be moving with a CONSTANT or Uniform Velocity.
assume the ant is moving at a constant speed. Then in 60 s, the ant moves (29.4 mm / 72.8 s) * 60 s = 24.23 mm.
10 metres in 5 seconds or 2 metres per second.
It would take 5 seconds for the bug to travel 5 meters across the floor if it is moving at a constant speed of 1 meter per second.
"Constant rate" implies there is no acceleration - acceleration is zero.
No, distance does not affect the body's acceleration when moving in a straight line with constant acceleration. The acceleration of an object depends only on the force acting on it, not the distance it travels. The acceleration will remain constant unless a different force is applied.
The distance over time changes in a moving object as it travels at a constant speed, resulting in a linear relationship where the distance increases proportionally with time.
The word is "stationary" for not moving, and "constant velocity" for moving at a constant speed in the same direction.
No, the motion of the seconds hand of a watch is not an example of uniform velocity. The seconds hand moves in a circular motion at a constant speed, rather than moving in a straight line at a constant velocity. Uniform velocity refers to motion in a straight line with a constant speed.