Faster. You see, adding more mass to the object pulls it down faster than when it had a lesser amount. Now that you've added more mass to your car, the gravitational pull will allow it to zoom on down the ramp. Forget about driving that thing UP the ramp!
(:
It will go faster, just like a boy scout pine wood derby car.
you are not faster, you are slower, Sarah types 20 more words in a minute than you do.
If you are in a real world situation there are a lot of factors to consider. In theoretical situation, ignoring friction and air drag etc, if a roller with mass m rolls down a slope to a horizontal surface it will continue rolling on the horizontal surface indefinitely. The velocity attained will be affected by the distribution of mass in the roller. If most of the mass is concentrated to a small volume that is axially located then the velocity will be different from if the mass is concentrated to the outer perimeter of the roller. In the latter case of peripheral mass concentration the acceleration will be slower but more energy will be stored as rotational inertia and in a real world situation the roller will continue rolling further.
if the parachute is wider there will be more air resistance which slows things down and if there are holes the air can pass through which decreases air resistance. so the wider it is the slower it is.the lighter it is the slower it is
The volume increases faster. (proportional to the cube of the radius)The surface area increases slower. (proportional to the square of the radius)
Normally, a ball with more mass would roll faster down a hill, but, it will go slower when kicked or rolled.
It will go faster, just like a boy scout pine wood derby car.
Friction will cause objects to slow down.
Yes. The Formula for momentum is Momentum= Mass x Velocity. If the slower car has a larger mass, it will likely have a larger momentum.
Before coming into the atmosphere, there is no reason why it would be slower. But once it hits the atmosphere, a flat or irregular shape (for the same mass) would offer more air resistance - it would slow down faster.
faster atoms have more kinetic energy than slower atoms do.
Slower in water.
Faster.
Yes, sometimes and no sometimes. In the case of rotating objects the more import value is moment of inertia. An object with a higher moment of inertia will accelerate slower (roll slower comparatively for any given time after release) down an inclined plane. In the case where the marbles are of equal diameter and uniform (although different if one is to have more mass) density the heavier marble will roll slower down a slope.
Yes, the hotter atoms are, the faster they more.
All I know is that if the Gyroscope's wheel is heavier it will precess faster and if it spins faster it will precess slower. But I'm not sure if slower or faster precession creates a more stable gyroscope.
Of course. You can run faster and slower. You can ride your bike faster or slower. You can ride it on a small slope or a steep slope. You can do more or fewer chin-ups or push-ups in each 10 seconds. You can lift lighter or heavier weights, and lift them faster or slower. You can run the treadmill faster or slower, and then keep up with it.