As you get higher up in the atmosphere there is less and less air on top of your head so there is less weight, meaning there is less pressure. Gravity. Atmosphere will be more compact closer to Earth because particles in the air have mass and are thus pulled down by gravity.
Generally, the temperature decreases as you move higher in the atmosphere. This is because the air at higher altitudes is less dense and receives less direct sunlight to warm it up. This relationship between temperature and altitude is known as the lapse rate.
When greenhouse gases like carbon dioxide increase in the atmosphere then the temperature rises. Greenhouse gases capture heat rising from the surface of the earth and prevent it escaping to space.
To increase the rate of dissolution, you can: Increase the surface area of the solid (e.g., crush it into smaller particles). Stir or agitate the solution to promote mixing. Increase the temperature of the solvent (if feasible) as higher temperatures generally increase the rate of dissolution.
as you go higher the air becomes thinner and colder until eventually you reach space where there is no air and it extremely cold
Saturn's atmosphere has extreme temperature variations, with the upper atmosphere reaching temperatures of around -200 degrees Celsius (-328 degrees Fahrenheit) and the core of the planet experiencing much higher temperatures of up to 11,700 degrees Celsius (21,100 degrees Fahrenheit).
Generally, the temperature decreases as you move higher in the atmosphere. This is because the air at higher altitudes is less dense and receives less direct sunlight to warm it up. This relationship between temperature and altitude is known as the lapse rate.
temperature and altitude
The temperature in Earth's atmosphere generally decreases with altitude. This is because the atmosphere gets thinner as you move higher up, and there are fewer air molecules to absorb and retain heat. This leads to a decrease in temperature in the troposphere and stratosphere, but then it can increase in the mesosphere and thermosphere due to absorption of solar radiation.
The temperature in the atmosphere decreases as altitude increases. The reason for this is there is less warmth from the surface of the earth reaching the higher altitudes because there are fewer particles of the atmosphere to transfer the heat. The temperature begins to increase, however, around 100km in altitude because of the heat and radiation from the sun.
The temperature in the atmosphere decreases as altitude increases. The reason for this is there is less warmth from the surface of the earth reaching the higher altitudes because there are fewer particles of the atmosphere to transfer the heat. The temperature begins to increase, however, around 100km in altitude because of the heat and radiation from the sun.
When the temperature goes up, the mercury or alcohol inside the thermometer expands, causing the level to rise. This increase in volume is directly correlated with the increase in temperature, allowing the thermometer to indicate the higher temperature.
When greenhouse gases like carbon dioxide increase in the atmosphere then the temperature rises. Greenhouse gases capture heat rising from the surface of the earth and prevent it escaping to space.
Cold because the higher up you go in the atmosphere the colder it gets, but the warmest layer of the atmosphere is the thermoshere. Also a good indication of the temperature of a layer in the atmosphere is to look at the weather, because on a good sized mountain there is snow at the top.
Temperature decreases with higher altitude because the air becomes less dense as you go higher up in the atmosphere. This means that there are fewer air molecules to trap and retain heat, resulting in a decrease in temperature.
Upto Ozon Layer it get colder and then start increasing the temperature.......
The temperature generally decreases as you climb higher up a mountain due to lower air pressure and thinner atmosphere. This change in temperature with altitude is known as the lapse rate, and it results in colder temperatures at higher elevations.
it is true that photosynthesis continues to increase with higher temperatures because it makes the process speed up.