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In a vacuum chamber. C. On the moon.
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Where would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate in a vacuum because they are subject to the same acceleration due to gravity. However, the bowling ball would be affected more by air resistance than the napkin due to its greater mass and surface area.
Were would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate of acceleration due to gravity, assuming no external forces are acting on them. This is because all objects experience the same acceleration due to gravity, regardless of their size, mass, or shape.
Where what a bowling ball and a napkin fall with the same acceleration?
In a vacuum, both a bowling ball and a napkin would fall with the same acceleration due to gravity, which is approximately 9.81 m/s^2. This is because in the absence of air resistance, all objects experience the same acceleration regardless of their mass.
Where would a bowling ball and a napkin fall with different accelerations?
In a vacuum where there is no air resistance, both the bowling ball and the napkin would fall with the same acceleration due to gravity. However, in the presence of air resistance, the bowling ball, being more aerodynamic, would fall faster than the napkin.
What is the acceleration of a bowling ball when at rest at the end of the bowling lane?
The acceleration of a bowling ball at rest at the end of the bowling lane is 0 m/s^2. Since the ball is not changing its velocity, it is not experiencing any acceleration.
Where would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate in a vacuum because they are subject to the same acceleration due to gravity. However, the bowling ball would be affected more by air resistance than the napkin due to its greater mass and surface area.
Were would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate of acceleration due to gravity, assuming no external forces are acting on them. This is because all objects experience the same acceleration due to gravity, regardless of their size, mass, or shape.
Where what a bowling ball and a napkin fall with the same acceleration?
In a vacuum, both a bowling ball and a napkin would fall with the same acceleration due to gravity, which is approximately 9.81 m/s^2. This is because in the absence of air resistance, all objects experience the same acceleration regardless of their mass.
Where would a bowling ball and a napkin fall with different accelerations?
In a vacuum where there is no air resistance, both the bowling ball and the napkin would fall with the same acceleration due to gravity. However, in the presence of air resistance, the bowling ball, being more aerodynamic, would fall faster than the napkin.
Where would a bowling ball and a napkin with different accelerations?
from an airplane and from the top of the Empire State Building
What is the acceleration of a bowling ball when at rest at the end of the bowling lane?
The acceleration of a bowling ball at rest at the end of the bowling lane is 0 m/s^2. Since the ball is not changing its velocity, it is not experiencing any acceleration.
Which force acts on anWhere would a bowling ball and a napkin fall with different accelerations?
When dropped in a vacuum, a bowling ball and a napkin would fall at the same rate due to the force of gravity acting equally on both objects, regardless of their mass. However, in the presence of air resistance, the napkin would experience greater drag relative to its weight, causing it to fall more slowly than the bowling ball. Consequently, the bowling ball would reach the ground first, highlighting the impact of air resistance on falling objects with differing shapes and masses.
Which exerts a gravitational force a baseball a football or a bowling ball?
A bowling ball since it has more mass. However, both the ping pong ball and the bowling ball are subjected to the same acceleration due to gravity, specifically 9.82 m s-2 and, neglecting air resistance, would fall at the same rate of speed.
If a bowling ball and a Nerf ball dropped at the same time and height what would the acceleration be?
Both the bowling ball and the Nerf ball would experience the same acceleration due to gravity, which is approximately 9.81 m/s^2. This is because all objects fall at the same rate regardless of their mass.
What is easier to roll a bolling ball on?
A flat, smooth surface would be ideal for rolling a bowling ball successfully. Usually, wooden floors that were waxed are used in bowling lanes. This gives the bowling ball less friction, thus, giving it more acceleration and less slowing down.
How much force is needed to accelerate at 25 kg bowling ball at?
The force required to accelerate a 25 kg bowling ball can be calculated using the equation F = ma, where F is the force, m is the mass of the bowling ball, and a is the acceleration. If the acceleration is given, you can plug in the numbers to find the force needed.
What figure is a bowling ball?
A bowling ball would be considered a sphere.
