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1.The Malay Archipelago is uniform, and the Indochina Peninsula is uneven. That is, the season in which precipitation is predominant.
2.Be. 3.Exceptional location and beautiful natural scenery.
4.Not particularly high, but countries like Thailand should be slightly higher than ours.
5.Yes. 6.Big.
7.There aren't too many mountains. There is no desert.
8.Not the Loess Plateau, for example.
9.Under the influence of the southwest monsoon and the northeast monsoon, if the southwest monsoon advances early and retreats late, floods will occur, and vice versa, droughts will occur.
10.Only Israel.
11.Because they only have a developed oil industry and huge oil reserves, they belong to the development of characteristic economies according to local conditions. The chemical and shipping industries are OK.
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1. Southeast Asia has a tropical monsoon climate, with dry and wet seasons, and the precipitation is mostly from May to September, so it is uneven. Seasonal distribution of precipitation is the amount of precipitation per month of the year.
2. False, the Malay Archipelago has a tropical climate, and the rainfall has a strong impact on the ground, so the fertility is small.
3. Special geographical location.
4. Not high. 5. Not fertile, mainly by superior climatic conditions.
6, of course. 7. The altitude of the Deccan Plateau is not high, there are no mountains, and there are no deserts.
8. No, such as: Loess Plateau, Brazilian Plateau, Deccan Plateau.
9, only Israel.
10. The oil reserves are abundant, and the uneven distribution of oil on the earth, and the heavy dependence of modern industry on oil, resulting in oil, and West Asia only has more oil and nothing else, so West Asia has to export oil. The Gulf states of Western Asia export more than half of the world's oil. Except for the more developed petroleum processing industry in West Asia, other industries are not very developed.
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The main factors affecting the development of plants (vegetation) are sunlight, air, temperature, humidity, fertility and other factors, which are not necessarily related to altitude, or altitude is only an indirect factor.
Therefore, this question can only be selected in AC at the beginningBecause it is a false tree line, not a tree line ---The tree line is the hydrothermal dividing lineSo the false tree line cannot be hydrothermal conditions, then it can only be a problem of wind (which causes the seedlings of taller trees to break easily compared to herbaceous) and soil.
By the way:The tree line is the dividing line between coniferous forests and alpine meadows, and if the forest at the boundary is not a coniferous forest, it means that hydrothermal conditions are not the main cause! This is the false tree line
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1. From west to east.
June 11, 22 o'clock.
3. Northeast China has long summers and winters.
4. Right and left.
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1. The fastest is B, because B is on the equator, and the distance traveled in the equatorial region is the longest when the longitude is the same, because the equator is the longest in Huisou among all the weft manuscript Tong lines. 2, d, because the same distance on the map represents the smaller the range, the larger the scale, so the scale bar at key Bitan B is the smallest, and the scale bar A is the largest3, (1) C, first of all, it is judged that this is a ridge, so the contour line A is larger than the data of B, and the elevation at M should be lower than A, but on the map it is surrounded by the same as A, so it should be a hillock; In the same way, n should be a depression. (2) C, from 1, it can be seen that the altitude of m should be higher than 300 meters and lower than 400 meters, and the altitude of n should be higher than 100 meters and lower than 200 meters.
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The fastest was B, who was on the equator and had the longest distance. dcc1,2
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Question 1 answer selection b analysis: p point tangent latitude indicates that it is 0 o'clock at that time, and at 20 o'clock in Beijing, you can know that the place is in the middle time zone, and the second question selection b analysis: on August 27, the place is tangent to the morning and dusk line, and it is a northeast wind, which means that it is a point in the northern hemisphere and the circle, and there is a month before and after September 23, so that one month is deducted before and after, and the entire Arctic polar day has half a year from the beginning to the end, so it can be known that the polar day is about 4 months, that is, 120 days.
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Eh,,, I haven't touched geography for three years, and I've almost forgotten it, so I'll briefly talk about my thinking, and I don't know if it's right, so you can refer to it.
First of all, August 27 is not yet the autumnal equinox, which is summer in the Northern Hemisphere, and the days are long and the nights are short.
Secondly, the p-point is the tangent point between the morning and dusk lines and the latitude line, and the northeasterly wind prevails, and according to the division of the wind belt, the point p can be deduced to be within the Antarctic Circle (if I remember correctly). The time and longitude of the tangent point between the morning and dusk lines and the latitude line can be calculated. The answer to the first question will be given.
Finally, calculate the time and longitude of the junction point between the morning and dusk line and the polar circle mentioned in the question, and then calculate the annual polar day time at point p according to the longitude of the junction point with the polar circle at the same time in the spring and autumn equinoxes.
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