The point where these two air masses meet is called a front.
When a cold air mass and a warm aif mass meet, the resultant weather is a thunderstorm. When the two air masses meet, the cold air forces up the warm air, where it cools and condenses to form clouds. These clouds fill with heavy water drops or ice crystals which then drop with the cold air. The cold air meets warm air close to the fround, and the cycle continues with gusting winds.
The cold air wedges under the warm air, forcing it up, where it expands, cools, and condenses to form clouds.
If you mean when a mass of cold air meets a mass of warm air, then a front is created.
An occluded front
A warm front forms.
Hurricane Laquisha happens
a thunder storm appears!
died
Increase in precipitation
thunderstorm
When a fast moving cold air mass collides into a warm air mass.
Frontal wedging
The low pressure systems form at cold because it means badweather. It forms at warm because it collides with a warm air mass. It does that with a stationary front.!!!!
If the cold front collides with warm, humid air it can produce rain.
thunderstorm
When a fast moving cold air mass collides into a warm air mass.
Frontal wedging
A cold air mass comes in under a warm air mass.
The low pressure systems form at cold because it means badweather. It forms at warm because it collides with a warm air mass. It does that with a stationary front.!!!!
The location where two different air masses meet is called a front.
The warm air mass is pushed up and the weather becomes cool and stormy.
If the cold front collides with warm, humid air it can produce rain.
A cold front is the transition zone were a cold air mass replaces a warm air mass. A warm front is a transition zone were a warm air mass replaces a cold air mass.
No. The warm air mass always rises above the cold air mass. And if the cold air is advancing, that makes it a cold front.
1) Warm front - warm air mass replacing a cold air mass at ground level. Typically shifts wind southeasterly to southwesterly. 2) Cold front - Cold air replacing warm air at ground level. Tyoically shifts southwesterly to northwesterly 3) Stationary front - Equal amount of energy between warm and cold air masses creating a "stalemate".
What happens is similar to when a warm air mass meets a cold air mass: the Cold Air Mass is forced to Subside beneath the Warm Air Mass. Thusly the warm air is uplifted, it cools and Rain is formed. When a Warm Air Mass meets a Cold Air Mass, the warm air is [again] forced to Rise above the Cold Air Mass, it cools and Rain is formed.