cottan balls
The previous answer was surely a joke. The answer is rocks.
I mean have More, Less,or the Same Intertia
The size matters, cause obviously, the bigger the sponge( or in your case, a cotton ball), the more water it absorbs.
Advantage of the cotton gin was to speed up and have a more efficient production of cotton.
Cotton fabric will burn faster than wool fabric. Wool will also be more difficult to light than cotton and may even self extinguish.
You know, I really don't know. But I can tell you how to find out. Place water in a bowl and add the golf ball. If it sinks, it's more dense, as it can't displace enough water to cause upthrust. Do it carefully and measure the volume of water displaced, then weigh the dry ball and divide the grams by the cubic cm to get the density. Easy.
Yes, the density of honey is greater than the density of cotton. Honey has a higher density because it is a liquid, whereas cotton is a solid material. Honey is more compact and therefore has more mass in a given volume compared to cotton.
They both have the same mass, however their weight is different. Since the 40 g rock has more density it would have more weight.
a cotton wool ball because it is bigger
No, cotton has a density of 1.54-1.56 g/cm³ while iron has a density of 7.874 g/cm³
yes,the density of cotton is more than honey
yes, cotton ball will absorb more than sponge
Friction between the cotton ball and the walls of the tube can influence the speed at which the cotton ball falls. More friction means more resistance, which can slow down the cotton ball's descent. If there's less friction, the cotton ball can fall more freely and quickly through the tube.
rock
billard ball because it has more density
A sponge will absorb water faster than a cotton ball. Sponges are designed with porous materials that can hold and retain water more efficiently compared to the fibers of a cotton ball.
A black bean will grow faster in soil than in a cotton ball. Soil provides a stable environment for the bean to develop roots and access nutrients more effectively than a cotton ball, which may not offer the same support for growth.
A beach ball would not have density, as density is a measure of an object's mass divided by its volume. Both the beach ball and the beach would have different densities due to their composition and materials.