Unless you are supposed to be aiming for the 8 ball, pocketing the 8 ball at any point in the game results in loss.
In 8 Ball this is loss of game under most rules. The 8 ball must be the object ball and struck first under most rules.
Kinetic energy is a function of mass and velocity. Therefore, an object with more mass, such as a bowling ball, would have to go slower than an object with less mass, such as a golf ball. So, if given the same amount of kinetic energy, a bowling ball will go faster than a golf ball, because it has more mass.
Yes, there is. Europa is tidally locked with Jupiter, which means that the same side is always facing it. This means that a day on Europa is the same as the time it takes for it to complete one orbit around Jupiter - 3 days 13 hours 13.7 minutes. To help visualize this, get a small ball, and move it around some other object. Make sure the same side of the ball always faces that object. As you move the ball around the object, imagine your head is the sun. As the ball moves around the object, you will have seen all sides of the ball by the time it completes one orbit around the object.
A force on an object in a certain direction will tend to move the object in the same direction. Hence, the force is to the right.
The ref will toss the ball, whoever gets it first takes it. Three tosses per pair if both players keep catching the ball at the same time, then the two C's get to take the toss/s.
Less. Think about it. Why might you run to catch a bus or a ball?
Any object that falls on Earth, no matter its size, will fall at the same speed. Drop a rock and a ball and both will accelerate at the same rate. The only thing that would slow them down is air resistance.
This is an example of momentum, which is a product of the object's mass and its velocity. It is also harder to start a bowling ball rolling than a ping-pong ball due to inertia, which is related only to the object's mass.
The create outline command changes type to paths so that it can be modified or moved between computers which may not have the same typefaces installed.
Both will reach the ground at the same time if they were dropped at the same time in a vacuum. This is a well proven fact that the mass has no effect on the acceleration of an object in a free fall in a vacuum.
The big flat object is subject to air resistance on the earth. In a vacuum, it would fall at the same rate as the smaller object. Also, if the big flat object is a piece of paper, you can crumple it into a ball and it will fall at the same rate as the smaller object because air resistance will not be as much of a factor.
all three.