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Is harder to stop a rolling bowling ball than a rolling ping pong ball when both are rolling at the same velocity Which is this an example of?
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∙ 12y ago
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first law of motion
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What makes a bowling ball harder to stop than a soccer ball when they are both traveling at the same speed?
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.
What are three degrees of an adjective?
The three degrees (of comparison) for adjectives are Positive, Comparative and Superlative. Example: hard (positive) harder (comparative) hardest (superlative)
How does speed and velocity affect cooking?
Even in a rotating restaurant, the kitchen would be located in the non-rotating center. If you had a kitchen on a rotating platform, the centrigugal forces would cause a certain amount of spillage and generally would make it harder to control the ingredients.
When a variable appears in the denominator of one or more term of an equation?
It can. And does, for example, in the hyperbolic trigonometric functions. It can make the solution harder but there is no law that says that solutions must be easy!
Can you change a report card grade?
By studying harder for the next semester.
It is harder to stop a rolling bowling ball than a rolling ping pong ball when both are rolling at the same velocity. this is an example of?
It is an example of inertia.
It is harder to stop a rolloing bowling ball than a rolling ping pong ball when both are rolling at the same velocity THis is an example of?
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.
When you increase your velocity on a skateboard it is harder to stopthis is an example of?
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 this is an example of?
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. This is an example of?
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 this is example of?
When you increase your velocity on a skateboard it is harder to stop because of momentum.
When you increase the velocity on your skateboard it is harder to stop This is an example of?
momentum
Define the momentum of a moving object?
Momentum is a quantity that describes both the mass and the velocity of an object. To find out the momentum of a given object, multiply the object's mass (kg) by its velocity (m/s).Think of it this way: momentum is sort of the "strength" of an object's motion. An object that has a lot of momentum will be harder to stop than an object that has less momentum.Which is harder to stop, a bowling ball or a golf ball? Well, if they are moving at the same velocity, the bowling ball will be tougher to stop, because it has more mass.How about if you have two 7 kg bowling balls that are both rolling toward you, but one is rolling at 0.5 m/s and the other is rolling at 10 m/s? You'd better get out of the way of the 10 m/s ball--it'll break your ankle! :-)This is why NFL linebackers are so large--it's tougher to stop a massive object in motion than a less massive object. :-)
What makes a bowling ball harder to stop than a soccer ball when they are both traveling at the same speed?
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.
The more mass an object has the harder it is to change its what?
Its velocity.Its velocity.Its velocity.Its velocity.
Which has more volume a bowling ball or beach ball?
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 ...
How is the inertia of an object related to its mass?
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.
