Normally, a ball with more mass would roll faster down a hill, but, it will go slower when kicked or rolled.
The mass of a ball affects how far it rolls by influencing its momentum. A heavier ball will have more inertia and thus require more force to get it moving. Once in motion, the heavier ball will have more kinetic energy which can help it roll further.
A lighter ball will generally launch farther in a catapult because it requires less force to accelerate and propel. A heavier ball would require more force to launch and would not travel as far due to the increased mass.
Yes, the mass of a ball does affect how fast it rolls down a ramp. In general, a heavier ball will roll faster down a ramp compared to a lighter ball, assuming everything else is held constant. This is due to the increased gravitational force acting on the heavier ball as it moves downhill.
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.
Tennis balls are lighter than cricket balls. Therefore less mass. If a tennis ball travels at the same speed its momentum (mass x velocity) is lower. Therefore less momentum an easier to stop. Short answer, less mass and same speed means less momentum
The mass of a ball affects how far it rolls by influencing its momentum. A heavier ball will have more inertia and thus require more force to get it moving. Once in motion, the heavier ball will have more kinetic energy which can help it roll further.
A lighter ball will generally launch farther in a catapult because it requires less force to accelerate and propel. A heavier ball would require more force to launch and would not travel as far due to the increased mass.
Yes, because of two things mainly. First of all a larger ball usually means a heavier ball, a more heavier ball requires more energy to give it motion so if the catapult can only supply a certain amount then a heavier ball will get less initial speed. Secondly a larger ball is affected more by air resistance (although this is offset a little because of the increase in mass), so a larger ball will get less far before it looses all its speed.
a golf ball is heavier
No. If the density of the item is less, the mass may be less, even if the object is larger. Cannon ball and a beach ball. Low density beach ball has far less mass than the VERY dense cannon ball, even though the beach ball is larger.
Yes, the mass of a ball does affect how fast it rolls down a ramp. In general, a heavier ball will roll faster down a ramp compared to a lighter ball, assuming everything else is held constant. This is due to the increased gravitational force acting on the heavier ball as it moves downhill.
Actually the heavier ball give all kinectic energy to the smaller ball which in turn also moves forward with the same velocity as the other one ,therefore kinectic energy is conserved.
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.
The interior of a ping-pong ball is filled with air, while the interior of a golf ball is made of solid material (rubbers) that are heavier (denser) than air. Thus wile about the same size a golf ball is much heavier than a ping-pong ball.
Tennis balls are lighter than cricket balls. Therefore less mass. If a tennis ball travels at the same speed its momentum (mass x velocity) is lower. Therefore less momentum an easier to stop. Short answer, less mass and same speed means less momentum
A 0.145 kg baseball can be thrown further than a 7 kg bowling ball primarily due to its lower mass and greater aerodynamic design. The lighter weight allows for faster acceleration and less energy required to achieve the same force. Additionally, the baseball's shape promotes better aerodynamics, reducing air resistance and enabling it to travel further when thrown. In contrast, the heavier bowling ball requires significantly more force to achieve a similar throwing distance, making it less practical for throwing.
A heavier ball traveling at a higher speed would have the most momentum. Momentum is the product of an object's mass and its velocity.