The energy that reaches the equator is more intense than the energy that strikes poles
Because of the differences in the amount of incoming light from the sun. At the equator, the incident light during the solstices are equal and the equinoxes are when the incoming light is the greatest. As well, there is very little difference between the angle of incident light at high noon (0 degrees during the solstice, ~23 degrees during the solstices). See also: http://en.wikipedia.org/wiki/Angle_of_incidence
Outside of the tropics, the incoming light is greatest during that hemisphere's summer solstice (June 20/21 in the Northern hemisphere and December 21/22 in the Southern Hemisphere), equal during the equinoxes, and least during that hemisphere's winter solstice (reverse the dates above). During the winter, the angle of the incident light at high noon is much greater than during the summer. See also: http://en.wikipedia.org/wiki/Season
At the Arctic and Antarctic poles during winter, the angle of incident light at high noon is above 90 degrees (which means the sun is always below the horizon). During the summer, the angle of incident light at midnight is never above 90 degrees (which means the sun is never below the horizon), warming the ground and atmosphere. See also: http://en.wikipedia.org/wiki/Polar_night and http://en.wikipedia.org/wiki/Midnight_sun
the heat does heat the sky. ever think of wind
Because the sun shines more near the equator so it hotter ther than it is in most places in the world
On a map of average annual temperature why are the lower latitudes so much warmer than the higher latitudes?
A temperature inversion occurs when air temperature at the upper layer are much warmer than the lower layer of air..
The lower region will flow to the higher region as much as possible. The two sides will become equal to each other.in this process.
One of the primary factors affecting the unequal heating of the Earth's atmosphere is latitude. Latitude is the measurement of the distance of a location on the Earth from the equator. The further away from the equator that a location resides, the less sunlight that this location receives. It all has to do with the shape of the Earth. Because the Earth is round, only the front most portion receives direct sunlight. If the front is 0 latitude, then as it goes up you get less sunlight at higher latitude.
Much warmer.
On a map of average annual temperature why are the lower latitudes so much warmer than the higher latitudes?
There are two reasons:The ocean acts as a significant thermal reservoir. Water has an amazingly high heat capacity, i.e it takes a lot more energy to raise and lower the temperature of water than it does most substances - and a lot of energy to freeze/thaw or evaporate/condense. The temperature of the air near the ocean is moderated by this - if the air is cold, the ocean can warm it without being changed very much in temperatureOcean currents can carry warmer water from lower latitudes to the higher latitudes. Areas near this warmer coastal water benefit from this by having the air above it absorb some of the energy of the comparatively warmer water to moderate the temperature swings. Inland the land stays put (unless you load it in trucks a and transport it - and even then you would have a hard time moving as much thermal mass as the ocean currents do naturally)
There are two reasons:The ocean acts as a significant thermal reservoir. Water has an amazingly high heat capacity, i.e it takes a lot more energy to raise and lower the temperature of water than it does most substances - and a lot of energy to freeze/thaw or evaporate/condense. The temperature of the air near the ocean is moderated by this - if the air is cold, the ocean can warm it without being changed very much in temperatureOcean currents can carry warmer water from lower latitudes to the higher latitudes. Areas near this warmer coastal water benefit from this by having the air above it absorb some of the energy of the comparatively warmer water to moderate the temperature swings. Inland the land stays put (unless you load it in trucks a and transport it - and even then you would have a hard time moving as much thermal mass as the ocean currents do naturally)
This isn't a technical explanation, but it has to do with the fact that the UK is coastal. The ocean currents, which hit the UK from the west are warmer and keep it cooler there than the middle of the continent in North America. This also explains why Washington state is much less cold in the winter than Minnesota, at similar latitudes.
If the Earth was tilted at 100 degrees (instead of 23), there would be drastically different variations of climate. It would be much warmer at high latitudes in the summer, and much cooler at low latitudes in the winter.
much higher
Air doesn't effect the bounce of the ball much higher air pressure the harder the ball lower pressure softer the ball temp effects it too colder soft warmer harder
Anywhere from 35-65 psi. Higher psi at higher RPM's. Lower at lower RPM's.
It is not - it is lower!
because they are Very close to the North Pole, where the sun is hitting the earth at much less of an angle than at the Equator and everywhere else between. the higher the sun in the sky the warmer the temperatures...everything else being equal. It also has to do with the Jet stream and the patterns of the earths climate in general...its a V broad question, but Ive given you the simple answer to explain it enough for you at this stage.
Warmer, much warmer.
much warmer