What does inert mean in chemistry terms?
An inert gas is a non-condensable gas that does not chemically react with other substances. A gas is referred to as ‘inert’ when it does not react with other chemical species at room temperature and pressure. The chemical properties of an inert gas are due to the atomic structure of the gas and not the physical properties of the gas. Inert gases include helium, neon, argon, nitrogen, and carbon dioxide.
What does inertia mean in chemistry?
inertia is a physical property of matter that allows it to resist a change in its state of motion. In other words, matter with a high degree of inertia will be hard to move. This is the primary factor behind the weight of a body. The opposite is true for matter with low inertia. It is much easier to move or change the state of matter with a low degree of inertia. This is why a stone is much lighter than a boulder.
What does inertia mean in physics?
Inertia in physics refers to an object’s resistance to change in its state of motion. For example, an object that has a lot of mass will need more force to move it than an object with less mass. What’s more, an object that has a greater mass will have increased resistance to change in its current state of motion, meaning it will need more force to change its speed or direction.
Inertia in chemistry terms?
Inertia is the property of matter that keeps it moving at a constant speed. If something has high inertia, it will resist a change of speed. If something has low inertia, it will change more quickly. For example, a bowling ball will roll slowly, or a feather will fly quickly. Inertia is a property of matter that is not dependent on the speed of motion.
What is inertia in chemistry?
Inertia means the resistance to change or motion. In other words, it is the resistance to acceleration. Inertia is a property of matter. It is the resistance of a body to a change in its state of motion. It is the resistance of a body to a change in its state of rest or uniform motion. The mass of a body determines its resistance to acceleration or change of motion.