generally a low pressure weather system, often causing low temperatures, strong winds and precipitation (rain. snow or hail)
Because all the warm air is rising and traveling to the colder spots in the northern hemisphere.
Cool air rushes in to replace the rising warm air.
Rising atmospheric pressure typically indicates that a high-pressure system is moving into an area, which often leads to clearer skies and more stable weather conditions. This increase in pressure is associated with descending air, which inhibits cloud formation and precipitation. As a result, rising atmospheric pressure usually signals fair weather and can suggest that a change in weather is on the way.
a high pressure system is moving into an area
Clouds form as air rises at the equator.
Fog may form as much colder air moves over warmer ocean surface water. As the ocean evaporates into the colder air, it saturates the air producing fog that looks like streamers rising off the water.
Because all the warm air is rising and traveling to the colder spots in the northern hemisphere.
Because all the warm air is rising and traveling to the colder spots in the northern hemisphere.
Air is continuously moving up in a tornado. This means that air surrounding the tornado must move in to replace the rising air.
No, a kite rising high above a hot sandy beach is not an example of radiation. Radiation refers to the emission of energy as electromagnetic waves or as moving subatomic particles. In this case, the kite rising is a result of wind currents and aerodynamics.
As hot air rises, there is less pressure pushing down on it. As a result, the rising air expands. This causes the air to cool. Thinner air + lower pressure = colder conditions. Water vapors in the air then turn to ice (snow) as the it meets the colder air and falls upon the mountain top
Rising action is when a story develops tension and is moving toward the climax. Find the rising action in that book and write a report on it.
The correct term is condensation. This occurs when rising water vapor meets colder air, causing it to lose heat and change back into liquid water in the form of water droplets.
The molecules get heated up ,gain energy and move to a new location thus transmitting heat from one part of the liquid to another.Similar things occur in gases. In the place being heated, the particles move more quickly because the heat energy is converted into kinetic energy in the particles. Faster moving particles collide more often and with more force and so they spread out, becoming less dense. Less dense fluids float on denser fluids so the heated particles start to rise. This has two effects. Firstly, denser, colder liquid cones in to replace the risen fluid, which can also be heated and rise. Also, the hotter, risen and more energetic particles start to transfer some of their energy to the colder fluid around them. This sets up a CONVECTION CURRENT of fluid rising where it is heated, spreading out at the top and falling back down in the colder parts of the fluid. and moving along the bottom to replace the rising warmed fluid. This carries the heat to the whole of the fluid.
Cool air moving to take the place of warm rising air is also known as convection. This is how many heating and cooling systems work.
Cool air rushes in to replace the rising warm air.
Heated air that is lighter than surrounding air will rise, as it is less dense. This process creates convection currents, with cooler air moving in to replace the rising warm air.