I mean have More, Less,or the Same Intertia
No you more inertia in outer space than anywhere else.
Cotton fabric will burn faster than wool fabric. Wool will also be more difficult to light than cotton and may even self extinguish.
The only real way to answer this is to define the terms, then it should make sense. Mass - How much of something there is, and what its made of. A rock and a spunge may be the same size, but the rock has more mass. Gravity - The force of attraction between any two objects. Usually the Earth, and somthing else. Based on the masses of the two objects. Weight - The amount of force due to gravity. A rock on earth will weigh less on mars because the mass of mars is less than the mass of earth. This is also why you don't feel 'weight' between you and your cup of coffee. The masses of the two objects is much too small to be felt. This is the same thing as 'heavy,' just a different word. Inertia - Refers to how much energy you need to get an object moving. The more mass an object has, the more inertia it has. This is totally independent from gravity or weight. With those definitions, you should be able to figure it out. Bowling balls are heavier because they have more mass, and they are heavy because of gravity. Also, bowling balls have more inertia, because they have more mass.
The particules inside the Cotton Wool are tight together and are barly moving meaning that it is a Solid. If they were move loose and moving around than it would be a liquid. If there were not many particules and they are moving about rapidly than it would be a Gas. Even if Wool is mould-able it's still a solid.
Because it is a measure of the "resistence" of an object to be accelerated in its rotation. An object with a big moment of inertia is more difficult to increase/decrease its angular velocity (speed of rotation), than an object with a low moment of inertia.
The 2kg brick has more inertia than the 1kg brick. Inertia is directly proportional to an object's mass, so the higher the mass, the greater the inertia.
No, the inertia of a bowling ball is greater than that of a golf ball. Inertia is directly related to an object's mass, so the heavier the object, the greater its inertia. The mass of a bowling ball is much larger than that of a golf ball, resulting in greater inertia.
The cricket ball has more inertia than the rubber ball because inertia is directly proportional to mass. The cricket ball is denser and heavier than the rubber ball, making it harder to change its state of motion.
No, the inertia of a bowling ball is greater than the inertia of a basketball due to the bowling ball's larger mass. Inertia is the resistance of an object to changes in its state of motion, and a heavier object like the bowling ball requires more force to accelerate or decelerate compared to the basketball.
because cricket ball has greater mass
Brick is more dense than cotton. Brick is a solid material made from fired clay or cement, while cotton is a soft, fluffy plant fiber. This difference in density is due to their composition and structure.
Since the lightest tenpin bowling ball is currently 6 pounds and a table tennis ball is not even an ounce, the tenpin bowling ball is heavier.
yes, cotton ball will absorb more than sponge
greater than
Is it Inertia
I think the golf ball has more inertia than ping pong ball, becuase of its weight. It is much heavy which result that it could stay at rest more, than a very lightweight ping pong 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.