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When you increase your velocity on a skateboard it is harder to stop because of momentum.
When you increase your velocity on a skateboard it is harder to stop because of momentum.
It is an example of inertia.
Its velocity.Its velocity.Its velocity.Its velocity.
Varyingly due to gravity not being a constant throughout the universe however as mass increases so does weight if there is any gravity then the increase of mass will increase inertia (they are sorta the same thing) Phrased another way, Inertia equal (Mass) X (Velocity) and remember that Velocity is a vector quantity.
When you increase your velocity on a skateboard it is harder to stop because of momentum.
When you increase your velocity on a skateboard it is harder to stop because of momentum.
When you increase your velocity on a skateboard it is harder to stop because of momentum.
When you increase your velocity on a skateboard it is harder to stop because of momentum.
momentum
It is an example of inertia.
A bike is way harder to do tricks you have to time every thing or you will fall .
Velocity is the speed something travels, so if anything travels at a higher rate of speed, the impact will be greater. No matter what the material speeding may appear to be, it will always impact harder with greater velocity. It's like shooting a paintball up close to a wall. The impact will be far harder than at long range, and a large splatter will appear on the wall. That's velocity for yah!
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 hardness of the wheel. The higher the number, the harder the wheel will be :)
you can increase the amount of kinetic energy by increasing the mass and the velocity..
Its velocity.Its velocity.Its velocity.Its velocity.