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How does atmosheric pressure distribute energy around the globe?
On a global scale there are four major air pressure zones. There's the equatorial low, the subtropical hights, the subpolar lows, and the polar hights.together they carry air back and forth between the equator and the poles and between earths atmosphere and it's surface
What drives atmospheric circulation?
Solar heating.
What is atmospheric discharge?
An atmospheric pressure discharge is an electrical discharge in air at atmospheric pressure.An electrical discharge is a plasma, which is an ionized gas. Plasmas are sustained if there is a continuous source of energy to maintain the required degree of ionization and overcome the recombination events that lead to extinction of the discharge. Recombination events are proportional to collisions between molecules and thus to the pressure of the gas. Atmospheric discharges are thus difficult to maintain as they require a large amount of energy.Typical atmospheric discharges are:DC arcLightningAtmospheric Pressure Glow Discharge (APGD)Dielectric Barrier Discharge (DBD)love.....razor
Which force causes atmospheric pressure?
Just as water pressure is caused by the weight of water, atmospheric pressure is caused by the weight of the air. Pg. 126 Conceptual Physical Science 4th Edition.
Which cycle involves weather?
The water cycle involves weather as it drives processes such as evaporation, condensation, and precipitation that are influenced by atmospheric conditions like temperature and pressure. These weather-related factors play a critical role in transporting water and energy around the Earth.
What is the transfer of energy due to atmospheric circulation which is driven by solar heating?
The transfer of energy due to atmospheric circulation driven by solar heating is known as the Hadley cell. Solar radiation heats the air near the equator, causing it to rise and create low pressure. As this air moves towards the poles, it cools and sinks, creating high pressure at around 30° latitude. This circulation pattern helps distribute heat around the globe.
Does air possess potential energy?
Air can possess potential energy when it is at a higher elevation, which gives it gravitational potential energy. This energy can be converted into kinetic energy as the air moves downward. Atmospheric pressure differences can also store potential energy within air masses.
How does atmosheric pressure distribute energy around the globe?
On a global scale there are four major air pressure zones. There's the equatorial low, the subtropical hights, the subpolar lows, and the polar hights.together they carry air back and forth between the equator and the poles and between earths atmosphere and it's surface
Transfer of heat energy around the Earth from uneven heating of its surface is accomplished by blank air blank pattern?
Transfer of heat energy around the Earth from uneven heating of its surface is accomplished by atmospheric circulation patterns. These patterns are driven by the unequal heating of the Earth's surface, creating areas of high and low pressure that result in the movement of air masses. Ultimately, this circulation helps distribute heat energy across the globe.
Why does water boil when the vapor pressure is equal to atmospheric pressure?
Water boils when its vapor pressure equals atmospheric pressure because at this point the molecules in the liquid have enough energy to escape into the gas phase, creating bubbles and causing the liquid to boil. This balance of vapor pressure and atmospheric pressure allows the liquid to change into a gas at a constant temperature.
The energy source responsible for the motion of molecules that make up the atmosphere is a the pressure caused by the weight of air b solar power c atmospheric tides d natural kinetic energy?
The energy source responsible for the motion of molecules in the atmosphere is the pressure caused by the weight of the air. This pressure gradient drives the movement of air molecules from areas of high pressure to areas of low pressure, creating winds and atmospheric circulation patterns.
When the vaper pressure of a liquid is equal the atmosphere pressure is?
When the vapor pressure of a liquid equals the atmospheric pressure, the liquid reaches its boiling point. At this temperature, the liquid molecules have enough energy to overcome intermolecular forces and transition into the vapor phase. This phenomenon allows the liquid to rapidly convert to gas, resulting in boiling. The boiling point varies with changes in atmospheric pressure; for instance, it decreases at higher altitudes where atmospheric pressure is lower.
When the vapor pressure of a liquid is equal to the atmospheric pressure the liquid .?
it begins to boil - Monsy
State and explain how the boiling point of water will change if the atmospheric pressure falls?
Water boils when its internal pressure reaches that of the atmospheric pressure. Therefor, if one lowers the atmospheric pressure, the water would boil at a lower temperature (in fact, one can make water boil at room temperature by dramatically lowering the atmospheric pressure).
What determines the physical form in which water exists?
Atmospheric pressure, energy level, polymorphs, isotopes, and alot of other factors.
How does atmospheric pressure affect the boiling point?
Atmospheric pressure is the weight of the air column above a particular point on the earth's surface. This weight pushes down on any object beneath it. In the case of a liquid that is being heated to the boiling point, it prevents vapor from pushing through the surface of the liquid and out to the surrounding air. Thus, the lower the atmospheric pressure above a liquid being heated, the less weight pushing against the vapor that is forming. So the lower this pressure is, the more easily the vapor escapes, meaning that there is less energy required to boil the liquid. This explains why food preparation instructions are different in locations of higher elevation: the amount of energy required to boil water at higher elevations is lower, meaning that less energy is going into the food to cook it.
How much pressure is in the center of the sun?
The pressure at the center of the Sun is estimated to be around 250 billion atmospheres, or approximately 25 million times the atmospheric pressure at Earth's surface. This immense pressure is a result of the gravitational forces exerted by the Sun's massive outer layers. Such extreme conditions are crucial for sustaining nuclear fusion, the process that powers the Sun and produces its energy.
