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Which one would go faster with the same kinectic energy bowling ball or a golf ball?
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.
What else can I help you with?
Which has greater gravitational potential energy a car sittknv on top of a hill or a bowling ball sitting kn top of the same hill?
Gravitational potential energy is proportional to the object's height and its mass. So if the car has more mass than the bowling ball has, then it also has more gravitational potential energy.
What has more kinetic energy a bowling ball or a marble moving at the same speed?
A bowling ball would have more kinetic energy than a marble moving at the same speed. Kinetic energy is directly proportional to mass, so an object with greater mass, like a bowling ball, will have more kinetic energy at the same speed compared to an object with lesser mass, like a marble.
Would you use a bowling ball covered in wool?
No, using a bowling ball covered in wool would not be recommended as it could affect the weight and balance of the ball, leading to inconsistencies in your game. It could also potentially damage the lanes and disrupt other bowlers. It's best to stick to using a standard bowling ball designed for the sport.
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
What is the kinectic energy of a 3-kilogram ball that is rolling at 2 meters per second?
The kinetic energy of the ball can be calculated using the formula: KE = 0.5 * mass * velocity^2. Plugging in the values for the mass (3 kg) and velocity (2 m/s), the kinetic energy of the ball would be 6 Joules.
True or false a waterfall is an example of kinectic energy?
The water physically falling would be yes, but the water that has yet to fall would be an example of potential energy. To answer your question It is true.
What is the relshionship between mass and kinetic energy?
The kinetic energy of an object is directly proportional to its mass. This means that as the mass of an object increases, its kinetic energy also increases, assuming the velocity remains constant. The equation for calculating kinetic energy is KE = 0.5 * mass * velocity^2.
A golf ball and a bowling ball have the same kinetic energy which is moving faster?
a golf ball because the weight is lighter and the wind helps iti think that the bowling ball will move faster because it has more mass.If my information was helpful please let me know in your comment!!Thank YouHOTGAL (!!EAGLE ALL DAII!!)^I think that's wrong.I think the bowling ball because it has more mass.My science teacher had this really good example:If you were standing in a hole,and I was rolling a bowling ball and a golf ball at you, which would change your face more?The bowling ball would change your face more.Here's another example which I got from my dad:If your dad and your younger sibling was running towards you,who would injure you more?It would be your dad because he has more mass than your younger sibling.Hope that helps.:D-Chubby Ninja
Does a bowling ball sitting on a shelf have more potential energy than a baseball ball on the same shelf?
My bet is on the bowling ball. At 20000 ft the pull of gravity is only marginally smaller than that of the baseball bat at 2 ft above sea leval. Because both have been lifted to their respective hights giving them potential energy, I would keep out of the way of the ball.
Which has greater gravitational potential energy a car sittknv on top of a hill or a bowling ball sitting kn top of the same hill?
Gravitational potential energy is proportional to the object's height and its mass. So if the car has more mass than the bowling ball has, then it also has more gravitational potential energy.
What has more kinetic energy a bowling ball or a marble moving at the same speed?
A bowling ball would have more kinetic energy than a marble moving at the same speed. Kinetic energy is directly proportional to mass, so an object with greater mass, like a bowling ball, will have more kinetic energy at the same speed compared to an object with lesser mass, like a marble.
Why are kenetic and potential energies the same?
they are not the same. kinetic energy is energe that an object has due to its motion. potential energy is stored and held in the readiness. for example kinetic energy would be like a bowling ball knocking over bowling pins. unlike kinetic energy, which is the energy of motion, potential energy is stored and may be used later on like a car stopping at a red light.
Why does a tsunami move faster than a regular wave?
That's because a tsunami contains thousands of more gallons than a regular wave. Example: In a bowling lane, a bowling ball (tsunami) is heavier and it can easily knock down pins. It's fast and heavy. If you tried to knock over the pins with a bouncy ball (regular wave), not much pins would be knocked over.. Though this explains why a tsunami can do so much damage, it does not explain how it moves faster. in a bowling alley both a bowling ball and a bouncy ball would move at the same speed.
Why when a bowling ball on top of a shelf is an example of?
A bowling ball on top of a shelf is an example of potential energy due to its position. The ball has gravitational potential energy because it is elevated above the ground, meaning it has the potential to fall. If it were to be knocked off the shelf, this potential energy would convert into kinetic energy as it falls. This scenario illustrates the principles of energy conservation and the effects of gravity.
Would you use a bowling ball covered in wool?
No, using a bowling ball covered in wool would not be recommended as it could affect the weight and balance of the ball, leading to inconsistencies in your game. It could also potentially damage the lanes and disrupt other bowlers. It's best to stick to using a standard bowling ball designed for the sport.
Where would you play a game of bowls?
Bowling Alley Bowling Alley
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
