The distances are so great and vast that they need a large measurement to easier express the distances. They use Astronomical Units (AUs) for distances within our solar system.
The precipitation associated with a warm front typically arrives extensively ahead of the actual frontal boundary.
Rain transpires on the foremost fringe of a warm front. As warm air is slightly less viscous than cold air, it slowly rises over the cold air by gradual frontal lifting and permits precipitation to evolve ahead of the frontal edge.
Yet, while cool air at the surface lives forward of a warm front, relatively warmer air often is discovered above it as the warmer surface air after the front rises up and over the cool air below. If sufficient moisture is present, this can develop in precipitation along and forth of the front.
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Answer:
I think A
Explanation:
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Alaska: Augustine volcano
California: Lassen Peak, Mount Shasta
Hawaii: Mauna Loa, Kilauea volcano
Oregon: Mount Hood, Mount Jefferson
Washington: Mount Rainier, Mount St Helen's, Mount Baker.
<u>Answer:</u>
A "small mountain stream" will have a<u> greater</u> competence and a <u>lower</u> capacity than the "Mississippi River".
<u>Explanation:</u>
- Streams flowing down a mountain tend to have more kinetic energy and momentum than the rivers flowing through plains.
- This increases their competence but at the same time, drains their capacity to convert themselves into larger streams.
- Most of the Mississippi River's course happens to pass through plains.
- That is why the Mississippi River has less competence yet more capacity than a "small mountain stream".
