Possibly but not likely.
A bowling ball has more momentum. You cannot throw it as fast, but a tenpin ball weighs 16 pounds and a baseball only 1/3 pound. Momentum is mass times velocity and if you throw the bowling ball at 10 mph but the baseball at 90 mph the bowling ball still has much more momentum.
If both balls are moving at the same speed (velocity), the heavier (more massive) will have the greater momentum. Momentum is the product of mass and velocity. With identical velocities, the more massive object will have the greater momentum. If a 34 kg ball and a 35 kg ball are both moving at 8 m/s as asked, then the 34 kg ball will have less momentum than the 35 kg ball.
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
The gas inside the inflated balloon has mass. At standard atmospheric conditions at sea level air weighs approximately one kilogram per cubic metre. A 10 passenger hot air balloon has an inflated volume of about 9000 cubic metres so the air inside the balloon weighs around nine tonnes!
Due to the greater mass, the momentum will high, hence making its motion difficult to change.
A bowling ball has more momentum. You cannot throw it as fast, but a tenpin ball weighs 16 pounds and a baseball only 1/3 pound. Momentum is mass times velocity and if you throw the bowling ball at 10 mph but the baseball at 90 mph the bowling ball still has much more momentum.
The bowling ball has more momentum because momentum is directly proportional to an object's mass and velocity. Since the two balls are moving at the same speed, the greater mass of the bowling ball results in it having more momentum.
The bowling ball would have more momentum because it has more mass than the golf ball. Momentum is calculated as the product of an object's mass and velocity, so a heavier object moving at the same velocity will have more momentum.
No, a bird and a bowling ball cannot have the same momentum because momentum depends on both an object's mass and its velocity. Since a bowling ball has much more mass than a bird, even if they were moving at the same speed, their momenta would still be different.
A heavier bowling ball can be a greater advantage in bowling because it has more momentum and energy when it hits the pins, increasing the chances of knocking down more pins with each roll.
sand grain
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.
there is more momentum and it depends on what your arm swing speed is when you throw a bowling ball because on your follow through there is more momentum going with a heiver ball rather than a lighter ball
The bowling ball traveling at 20 kph has greater momentum than the one traveling at 10 kph, assuming both have the same mass. Momentum is calculated using the formula ( p = mv ), where ( p ) is momentum, ( m ) is mass, and ( v ) is velocity. Since the second ball has a higher velocity, its momentum will be greater, making it more impactful in motion.
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.
This can be a tricky question; before answering one like this ask for the frame of reference.If you are in a closet with a floating feather, and a ball on a shelf, and measure momentum relative to the closet, the feather will have more momentum than the bowling ball.However, if you look at the larger picture, you will find thatthe earth is rotatingthe earth is orbiting the sunthe sun is moving relative to other stars near usthe sun is orbiting our galaxyour galaxy is moving relative to other galaxies.Every one of these motions involves momentum, and the total momentum is shared out among everything on or in this planet in proportion to its mass. The bowling ball is enormously massive compared to the feather, and has vastly more momentum in the universal frame of reference.The answer is correct, but the last sentence is wrong. There is no universal frame of reference.
Momentum is calculated as the product of an object's mass and its velocity. Therefore, a bowling ball traveling at 20 kph has greater momentum than one traveling at 10 kph, assuming both balls have the same mass. The increase in speed directly increases the momentum, making the 20 kph ball more impactful than the 10 kph ball.