its all about the amount of molecules rubbing together to form heat... bla bla bla...more pressure=more molecules
Low pressure systems form at cold fronts when cold, dense air displaces warm air, causing the warm air to rise and create a region of low pressure. At warm fronts, low pressure systems form as warm, less dense air rises over colder, denser air. At stationary fronts, the convergence of warm and cold air masses creates a weak area of low pressure between them.
because the lower you go, the warmer it will get, and the higher you go the colder it will get... example is space is so cold because it is high up, hell, or the core of the earth is so warm because it is the lowest of low.
Low pressure system, very low! Low pressure=air coming inward=lifting of air=bad weather/instability...
Cold air aloft is associated with a surface low pressure system. The reverse is true for warm air aloft. In a baroclinic low pressure system, the upper-level low/trough is usually situated over the cold air, while upper level highs/ridges are around warm air aloft.
Low pressure It's not actually the low pressure air that rises up. The counterclockwise circulation around the low pulls cool air from up north down and forms a cold front that usually extends south of the low. This cold air runs into the warm air in front of the system that is being drawn up from the south from the counterclockwise circulation. The cold air forces the warm air to rise because the cold air is more dense. This warm air rises and produces rain.
It is moderatly warm in a low pressure system
Low pressure systems form at cold fronts when cold, dense air displaces warm air, causing the warm air to rise and create a region of low pressure. At warm fronts, low pressure systems form as warm, less dense air rises over colder, denser air. At stationary fronts, the convergence of warm and cold air masses creates a weak area of low pressure between them.
When warm and cold fronts meet . ;{)
Low pressure centers are the zones of convergence of warm and cold currents.
Cold air has a high pressure because it is heavier than warm air.
high pressure,low pressure,cold front,warm front,warm air mass,cold air mass
Pressure differences between warm and cold air masses cause fronts or high/low pressure systems. A warm front is when a warm, moist air mass slides up and over a cold air mass, and a cold front is the opposite.
Air tends to travel from regions of high pressure to low pressure, so it can move from warm areas to cold areas or vice versa depending on the pressure systems in place. Additionally, air temperature differences can create wind patterns that influence the direction of air movement.
High temperatures coincide with low pressure and low temperatures coincide with high pressure. Cold air is heavier than warm air and has a higher pressure with it.
Low pressure area and in turn, typhoon
because the lower you go, the warmer it will get, and the higher you go the colder it will get... example is space is so cold because it is high up, hell, or the core of the earth is so warm because it is the lowest of low.
Low pressure system, very low! Low pressure=air coming inward=lifting of air=bad weather/instability...