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∙ 12y agogreater than the rate at which nitrogens particles hit the ouside of the container. x
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∙ 12y agoNitrogen particles hit the inside of a container at the same rate as they hit the outside, assuming there are no factors causing an imbalance in the distribution of particles. In a gas at thermal equilibrium, the molecules move randomly and collide with the walls of the container uniformly in all directions.
If the volume of a gas container increases, the pressure of the gas will decrease because the gas molecules have more space to move around, resulting in fewer collisions with the container walls. This change in pressure is a direct result of Boyle's Law, which states that pressure and volume are inversely proportional at constant temperature.
Electrons are the subatomic particles found outside of the nucleus and carry a negative charge.
The stopper prevents the gas from escaping into the surroundings, allowing it to be collected efficiently within the container. It also helps to ensure that the gas sample remains uncontaminated by outside air or particles. Additionally, a closed system with a stopper allows for accurate measurement and analysis of the collected gas.
The subatomic particles found outside of the nucleus are electrons. Electrons are negatively charged particles that orbit the nucleus in specific energy levels. They play a critical role in chemical bonding and determining the physical and chemical properties of an atom.
Particles that are never present in an atom include free electrons (outside the nucleus), neutrinos, and positrons. These particles do not form part of the structure of the atom itself.
Greater than .(I have exactly the same question on my sheet.)
I believe that since the vacuum is absent of matter, there is not matter to which the heat of the outside of the container can pass on its heat. In other words, if there was air inside the tude instead of a vacuum, the hotter outside of the container would make the air hot inside the walls of the container, so thus the hot air would make the inside of the container hot too. This is like a chain of heat, as the heat moves from matter to matter, bbut the vacuum limits the matter in the chaing, so less heat is passed onto the nitrogen.
The evaporation of a liquid in a closed container is much more difficult than in an opened container. The liquid evaporating is trapped inside of a closed container and allowed to freely move into the atmosphere in an open container.
The basic particles outside the nucleus in an atom (note "outside", not "on the outside of" ... there's a subtle difference) are electrons.
Slant cultures should be stored in a closed container to prevent contamination from outside sources such as airborne particles or mold spores, which could jeopardize the integrity of the culture. Additionally, a closed container helps maintain a sterile environment necessary for the preservation of the microorganisms in the slant culture.
These particles are the electrons.
If the volume of a gas container increases, the pressure of the gas will decrease because the gas molecules have more space to move around, resulting in fewer collisions with the container walls. This change in pressure is a direct result of Boyle's Law, which states that pressure and volume are inversely proportional at constant temperature.
Particles found outside Earth's atmosphere include solar wind particles, cosmic rays, and interstellar dust. These particles can interact with Earth's magnetic field and atmosphere, impacting space weather and the planet's environment.
condensation
the shell
the particles outside nucleus are electrons. and they are negatively charged
It's called condensation.