What causes a gas to exert pressure when confined in a container

Answers

Answer 1

Answer: the molecules in gas are always trying to expand

Answer 2

Answer:

Final answer:

When a gas is confined in a container, it exerts pressure due to the collision of its particles with the walls of the container. This is explained by the kinetic theory of gases, which states that gas particles are in constant random motion. Temperature also plays a role in gas pressure.

Explanation:

For example, if you squeeze a balloon, the gas inside it gets compressed, and the particles collide with the surface of the balloon more frequently, resulting in an increase in pressure.

Another factor that influences gas pressure is the temperature. According to Charles's Law, when the temperature of a gas increases, its particles move faster, leading to more frequent and energetic collisions with the container walls, thereby increasing the pressure.

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1. You were tasked to check if the liquid sample you have is a substance or a mixture.Which among these tasks is the BEST way to do so?
1. Color comparison
Il. Taste comparison
III. Boiling Test
iv.
Melting Test

Answers

Answer:

boiling test or melting test

Explanation:

Which of the following is necessary for collisions to be successful?A. enough kinetic energy and favorable geometry
B. enough kinetic energy only
C. sufficient potential energy only
D. favorable geometry only

Answers

Answer: A. enough kinetic energy and favorable geometry

Explanation: According to collision theory, the rate of a reaction depends upon the number of effective collisions which means the collisions which result in the formation of product which in turn depend on following two factors:-

a) Energy factor: In order for a collision to be successful, the colliding molecules must cross a energy barrier which is called as threshold energy. Thus molecules with energy less than threshold energy are not able to result into products.

b) Orientation factor: the colliding molecules must have proper orientations at the time of collision otherwise they do not result in product formation.

It's A Enough kinetic energy and favorable geometry

Describe the motion of a ball being thrown straight up in the air in terms of kinetic and potential energy. as the ball rises up and falls back down, how is its kinectic and potential energy affected?

Answers

In your hand, the ball has higher potential energy than kinetic because it is still off of the ground but it isn't moving so there is no kinetic. As the ball rises, its potential and kinetic energy increases. At its peak, it has very high potential energy and very low kinetic energy. As it falls, the potential energy decreases but kinetic does not.

Which of the following is not a form of heat transfer?A. radiation
B. convection
C. conduction
D. vaporization

Answers

D. Vaporization is not a form of heat transfer. Vaporization refers to a phase change in which a substance changes from a liquid state of matter to a gaseous state.

Can you…Balance a chemical equation using the relationships identified?

Answers

Answer:

A balanced chemical equation not only describes some of the chemical properties of substances—by showing us what substances react with what other substances to make what products—but also shows numerical relationships between the reactants and the products.

A balanced chemical equation not only describes some of the chemical properties of substance by showing us what substance react with what other substance

What moves in or out of a substance during a change of state?

Answers

Heat, which is energy, moves in or out of a substance during a change of state.

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