Yes cold fronts move faster than warm fronts
The fronts mainly move from the West towards the East. If you want to be more specific, it starts North West and goes South East. It is caused by the prevailing winds that move the molecules in a curved path, rather than a straight line.
no
P-waves move around 3 km/s faster than s-waves.
It has a thick cloud cover of sulfuric acid, it moves fifty times faster than earth's cloud cover. hope this helped
Most asteroids orbit around stars and move faster than them.
Warm fronts move quicker than cold fronts but cold fronts still move rapidly.
There is no fixed speed, it depends on the energy in the weather system of which the cold front is a part. However cold fronts move faster than warm fronts, this leads to occluded fronts.
False. Warm fronts move slower.
No, warm fronts generally move slower than cold fronts.
No it does not. In fact, it is SLOWER than the cold front. If warm front bump into the cold front cause these types of weather conditions: strong wind, thunder storm, heavy precipitation (any form of water that falls into earth). If cold one bumps into the warm front, it is the opposite. It cause weather to turn into weaker wind and light, steady precipitation.
Cold fronts and occluded fronts generally move from west to east, while warm fronts move poleward. Because of the greater density of air in their wake, cold fronts and cold occlusions move faster than warm fronts and warm occlusions. Mountains and warm bodies of water can slow the movement of fronts.[2] When a front becomes stationary, and the density contrast across the frontal boundary vanishes, the front can degenerate into a line which separates regions of differing wind velocity, known as a shearline. This is most common over the open ocean.
Sound will usually move faster in a solid than in a liquid.
Sound will usually move faster in a solid than in a liquid.
None of the choices are true.
No, a desert cools faster than a swamp as it lacks humidity and cloud cover to hold in the heat from the daytime.
in between or around or near air masss or where they meet.
So far nothing is found to move at a faster speed than that of light.