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What are the differences between thermal inversion and normal atmospheric conditions?
In thermal inversion, warm air traps cooler air near the ground, leading to pollutants being trapped and causing poor air quality. In normal atmospheric conditions, air temperature decreases with altitude, allowing pollutants to disperse more easily.
What is a primary source of stored thermal energy in oceans?
The primary source of stored thermal energy in oceans is solar radiation. Solar energy is absorbed by the ocean surface, heating up the water mass. This heat is then transferred and stored throughout the ocean layers.
What type of energy from the oceans is responsible for weather patterns?
Ocean thermal energy, which refers to the heat stored in seawater, plays a role in shaping weather patterns. This energy influences the temperature and humidity of the air above it, which can lead to the formation of atmospheric systems like storms and rain. Oceans act as a reservoir of heat that can impact global climate and weather conditions.
What consequence occurs if the sun delivers thermal energy to Earth through radiation?
The consequence of the sun delivering thermal energy to Earth through radiation is the heating of the Earth's surface and atmosphere. This leads to various weather patterns, atmospheric circulation, and the creation of ecosystems that support life on our planet.
The primary wavelenght of radiation emitted by earths surface are?
The primary wavelength of radiation emitted by Earth's surface is in the thermal infrared range, typically around 10 micrometers (μm). This is known as long-wave radiation, which the Earth emits as heat energy.
A diagram that shows thermal energy being released by objects is called a?
Thermal energy being released by objects can be illustrated in a diagram called a heat transfer diagram. These diagrams show the flow of thermal energy from one object to another or from one system to the surroundings.
What is the conclusion of heat?
The conclusion of heat is the transfer of thermal energy from a warmer object to a cooler one. This transfer changes the temperature of the objects involved until they reach thermal equilibrium.
Is thermal refrigerator an example of heat engine why illustrate your answer with the aid of a diagram?
No
What is an atmospheric tide?
An atmospheric tide is a collective name for the pressure waves in the atmosphere similar to the tides of the ocean produced by the gravitational influence of the moon and by thermal expansion and contraction.
In which atmospheric layer do particles move rapidly but do not collide often or transfer thermal energy?
mesosphere, stratosphere
What are phase daigram?
Phase diagram are also known as thermal equilibrium diagram or a consistutional diagram 1. Different uses of phase diagram are 2. prediction of phase 3. amount of phase 4.composition of phase
What is the primary force that causes the continents to drift?
thermal convection is the primary force that cause the sea floor to spread
What moves air and thermal energy throughtout the troposohere?
Winds are the primary factor for moving air and thermal energy throughout the troposphere. Temperature gradients between the equator and poles drive the creation of atmospheric circulation patterns that transport air and heat around the globe. These winds play a crucial role in redistributing heat and moisture, influencing weather patterns and climate.
What is the significance of the air thermal expansion coefficient in relation to atmospheric changes and climate patterns?
The air thermal expansion coefficient is important because it affects how air expands and contracts with changes in temperature. This can impact atmospheric pressure, wind patterns, and ultimately, climate patterns. A higher thermal expansion coefficient can lead to more extreme weather events and changes in global climate.
What is a diagram that shows thermal energy being released by objects?
A thermal energy diagram typically shows the flow of heat energy transferred between objects. It may include labeled objects with arrows indicating the direction of heat transfer, as well as annotations of temperature changes.
What are the differences between thermal inversion and normal atmospheric conditions?
In thermal inversion, warm air traps cooler air near the ground, leading to pollutants being trapped and causing poor air quality. In normal atmospheric conditions, air temperature decreases with altitude, allowing pollutants to disperse more easily.
Are gas containing organ injuries attributed to thermal effect?
Primary blast effect
