Will a bowling ball fall faster than a marble?





No, a bowling ball will not fall faster than a marble. When objects fall, their speed is determined by gravity, which pulls them downwards towards the ground. The mass or size of an object does not affect how fast it falls. This means that both a bowling ball and a marble would fall at the same speed in a vacuum, where there is no air resistance. To understand this, imagine dropping a feather and a small stone in air. The feather is much lighter and has a larger surface area compared to the stone. Due to air resistance, the feather will experience more resistance and fall slower than the stone. However, if we remove the air by performing the same experiment in a vacuum, both the feather and the stone will fall at the same speed. Similarly, in the case of a bowling ball and a marble, although the bowling ball is much heavier and larger, they would fall at the same speed in a vacuum. This is because gravity affects all objects equally, regardless of their mass or size. In everyday life, when objects fall in the presence of air, factors like air resistance come into play. Due to their difference in size and shape, a bowling ball experiences more air resistance than a small marble. As a result, it may appear that a marble falls faster than a bowling ball. However, if we were to eliminate air resistance, they would fall at the same rate. Therefore, in the absence of air resistance or any other external forces, both a bowling ball and a marble will fall at the same speed.