This is a question of probability; often, probabilities are expressed and solved using fractions.
J
The following is the answer:
I do'nt know
It would be a two dimensional vector whose first component is a possible outcome of tossing the coin and the second is the outcome of the roll of the die. It is not possible to answer the question as asked because there is no following list of elements to choose from.
Rolling in the isles
The problem can be split into two parts, rolling a 12, or rolling a 4 or less. This can be further broken down to rolling a 2, rolling a 3, rolling a 4, or rolling a 12. P(rolling 4 or less, or 12) = P(rolling 4 or less) + P(rolling 12) = P(rolling a 2) + P(rolling a 3) + P(rolling a 4) + P(rolling a 12) = 1/36 + 2/36 + 3/36 + 1/36 = 7/36
The following is the answer:
Same as a football.
It is a mixture of charging, traveling, and picking & rolling, == ==
Substitutions are rolling and can be made during a break in play.
The best footwear would actually be basketball shoes. Basketball shoes have "high tops" so that they go over your ankles to prevent hem from rolling.
You keep punching or shooting or whipping him and watch out for the big mashers
I do'nt know
It would be a two dimensional vector whose first component is a possible outcome of tossing the coin and the second is the outcome of the roll of the die. It is not possible to answer the question as asked because there is no following list of elements to choose from.
A basketball rolling across a flat floor has translational and rotational kinetic energy. There's a force of gravity pulling the ball down towards the floor, and a reaction force pushing the ball up away from the floor.
Drag and friction has a curving effect on a golf ball. The ball may make a curved trajectory as it flies through the air, mostly taking the direction of the wind.
A rolling-element bearing, also known as a rolling bearing, is a bearing which carries a load by placing rolling elements (such as balls or rollers) between two bearing rings called races. The relative motion of the races causes the rolling elements to roll with very little rolling resistance and with little sliding.
Sure. Picture a squash ball rolling across a basketball court.