THE EARTH WOULD END. All things would stop eventually, leaving a hot core and a very, VERY dead Earth. Earth would PROBABLY stop moving, disrupting the Solar System. SO: Convection currents, if you stop, the universe will END.
Check the relay.
Empty battery, water, stain, dust or somebody threw it at the floor.
Wave signals are being sent down to Earth's crust. This will most likely stop the apprentice wave of an earthquake
Aurora Borealis. Toilets flushing in vortexes.
Stop the ball
The bowling ball is harder to stop because it has a greater mass, and therefore a greater momentum. But the answer is that the bowling ball has a greater mass.
Most likely the bowling ball. According to the laws of physics, an object with more inertia accelerates slower but is harder to stop. The bowling ball accelerates ...
Any amount of force can stop either kind of ball. But a greater force is required to stop a bowling ball than to stop a soccer ball IN THE SAME TIME, because the bowling ball has more mass, and therefore more momentum and more kinetic energy.
You need to understand that MASS is an intrinsic property of matter, the Bowling ball will have the same mass no matter where it is. WEIGHT is the pull of gravity on matter. As gravity is weaker/less on the Moon as compared to Earth, the same size lump of matter (the bowling ball) will weigh less on the Moon as it does on Earth. The problem in understanding this difference happens because as we live on Earth we confused MASS and WEIGHT before we understood the physics. On Earth a 1 Kg mass weighs 1 Kg, however if we take that 1 kg mass to the Moon where gravity is only one third of that on Earth it will only weigh 1/3 Kg. However, there is another property of matter that is related directly to its Mass and that is the energy you need to put in to get it to move (or stop moving) - this is called INERTIA. Weather on the Moon or on the Earth the INERTIA of the bowling ball will remain the same. If you roll it to another person on a horizontal surface on the Moon or on Earth, the person you roll it to will find it just as hard to stop in both places.
You need to understand that MASS is an intrinsic property of matter, the bowling ball will have the same mass no matter where it is. WEIGHT is the pull of gravity on matter. As gravity is weaker/less on the Moon as compared to Earth, the same size lump of matter (the bowling ball) will weigh less on the Moon as it does on Earth. The problem in understanding this difference happens because as we live on Earth we confused MASS and WEIGHT before we understood the physics. On Earth a 1 Kg mass weighs 1 Kg, however if we take that 1 kg mass to the Moon where gravity is only one third of that on Earth it will only weigh 1/3 Kg. However, there is another property of matter that is related directly to its Mass and that is the energy you need to put in to get it to move (or stop moving) - this is called INERTIA. Weather on the Moon or on the Earth the INERTIA of the bowling ball will remain the same. If you roll it to another person on a horizontal surface on the Moon or on Earth, the person you roll it to will find it just as hard to stop in both places.
It depends on how fast they're going. A bowling ball is much heavier, therefore has more momentum if they're both travelling at the same speed.
so that the bowling ball can just glide and not stop while its going to make a strike or whatever.
It is an example of momentum (sometimes called "inertia"). Velocity x mass. The bowling ball is much, much heavier. With both rolling at the same speed, the bowling ball is harder to stop because it has much more mass.
im gonna beat u rolling egghead r it said nothing because bowling balls cant talk
The force of the bowling ball colliding with the golf ball causes the golf ball to be redirected in an elastic collision. How fast either travels depends on the friction of the surface and the angle of contact with the bowling ball.Comparative Masses and EnergyIn the collision between a golf ball and a bowling ball, the fact that the bowling ball continues to move (although possibly changed in direction) is a function of the comparative masses of the two. The bowling ball is much more massive, so at normal velocities its kinetic energy exceeds the kinetic energy of the golf ball. In order to "stop" the bowling ball, the golf ball would have to make a perfectly aimed collision, and have a much higher velocity. Quantitatively, the velocity of the golf ball would have to be the inverse ratio of the ratio of the masses of the two balls, so that the kinetic energy (mass times velocity) is equal and in the opposite direction.Example : Golf ball at 45 g, ten pound bowling ball at 4500 g -- the golf ball would have to move at 100 times the velocity of the bowling ball to counteract its kinetic energy. If the bowling ball rolls at 2 m/sec, the golf ball would have to travel at more than 200 m/sec (720 kph or 447 mph), about 3 times a ball's normal velocity off the face of a golf club.
Yeah, all you have to do is stop being a pro get your points to drop under 1000p and they will go.