Answer:
equator sun
Explanation:
the winter solstice explained. at 6:12.a.m. EST on Friday (Dec 21) , <u>the</u><u> </u><u>sun</u><u> </u><u>wil</u><u>l</u><u> </u><u>rea</u><u>ch</u><u> </u><u>a</u><u> </u><u>po</u><u>int</u><u> </u><u>wh</u><u>ere</u><u> </u><u>it</u><u> </u><u>wi</u><u>ll</u><u> </u><u>ap</u><u>pear</u><u> to</u><u> </u><u>shine</u><u> </u><u>farthe</u><u>st</u>
to the South of the equator, over the tropic of Capricorn , Thus markingthe moment of winter solstice -the beginning of the winter.
Answer:
The Free Palestine Movement opposes the existence of the land of Israel and believes there is no grounds for coexistence between Jews and Arabs. They claim that they have owned the land for hundreds of years. However, there was never an independent Palestinian state in the first place
Answer:
The answer is "Provide strong evidence for seafloor spreading".
Explanation:
The magnetic changes from east to west and vice versa are geomagnetic. geomagnetic reversals. And they can provide significant evidence of the expansion of sea bed in the rocks formed along the middle sea ridges by documenting the geomagnetic pattern of echo.
A new crust is developing from the magma explosion into the seafloor in the ocean along the mid-oceanic ridges along the mid-ocean ridges. When the magma cools, the minerals of ferromagnetism found in the magma will align as per the magnetosphere of this time.
In the event of geomagnetical revolutions, newly formed minerals will be reverse-aligned to early elements, thus registering the lithosphere on both sides of the mid-oceanic ridge. Lithosphere, one could argue, is a continual move away from oceanic crusts midway through.
Answer:
Explanation:
Here, we look at some of the top causes of poverty around the world.
Inadequate access to clean water and nutritious food. ...
Little or no access to livelihoods or jobs. ...
Conflict. ...
Inequality. ...
Poor education. ...
Climate change. ...
Lack of infrastructure. ...
Limited capacity of the government.
Answer:
b. stratigraphically alternating sequences of sandstones, conglomerates, and shales.
Explanation:
It is unlikely that one would find igneous rocks such as basalt and granite in fluvial environments. Coal is also not usually found in fluvial environments. Limestone prefers shallow and calm waters so would not be moved by water normally. This therefore invalidates options a, c, d, e and f.
For the hypothesis to be true, one would need to find conglomerates as these contain large clasts and are present in fluvial environments. Alternating sequences involving conglomerates and sandstones would indeed show that that some floods were able to carry large clasts.
