If you divide the meters by the seconds, you get the average speed. But that would be in meters / second, not in meters per second squared, which is a unit of acceleration.
Speed cannot be measured in ms2 (or ms-2) so the question has no answer.
Kinetic.
I believe, if I'm not mistaken, they are both at the equilibrium. However, if I had to say one, it's the bowling ball at rast. "Physics. The state of a body or physical system at rest or in unaccelerated motion in which the resultant of all forces acting on it is zero and the sum of all torques about any axis is zero." -- Answers.com
Friction always acts in the direction opposite to the the motion of the object.For example, if a bowling ball rolls to the right, friction would act to the left.Without friction, if you threw a ball, it would keep going forever. Friction slows objects down.
it gains kinetic energy as the can rolls back to you.
Some rolls (cut to the width of one spread) will weigh 400 kg (900lbs). From the paper machines a roll can weigh 2 or 3 tonnes.
.281 meters
because top hat
Kinetic.
At 3 metres per second it will roll 6 metres in 2 seconds.
Average acceleration during a time interval = (change in speed) divided by (time for the change) =(25) / (5) = 5 meters per second2
you must get the golden ticket for to get into the celebrity partywhere theres a bowling ally you just jump on a pad then it rolls the ball
12 linear metres into rolls?
As is typical of this type of question, I am going to assume that the falling bowling ball is not affected by the friction of the air through which it falls. The formula for velocity is v = gt where g is acceleration due to gravity, 9.8m/sec2 After 8 seconds, the ball is falling at v = 9.8m/sec2 * 8 sec = 78.4 m/sec. If it really has a mass of 10kg, it's not a bowling ball. Bowling balls are limited to about 7.27 kg.
weight *speed / stopping time example : What is the momentum of an 7 kg bowling ball rolling at 5 m/s? (7x5=35 kg m/s) If the bowling ball rolls into a pillow and stops in 0.5 s, calculate the average force it exerts on the pillow. (35/.5=70 N)
The speed is exactly 100 cm per 6 seconds. Converted into other units, it's also equivalent to -- 1 meter per 6 seconds -- 1662/3 millimeters per second -- 10 meters per minute -- 600 meters per hour -- 14.4 kilometers per day
Basically, it means each player plays 10 frames, or rolls.
No. Speed and force cause a bowling ball to roll down a lane. Friction may cause a bowling ball to change course on a lane though, and also slow it down.