You can find diamonds on every continent on earth, except Europe and Antarctica. This belies any statement that diamonds are 'evenly distributed' on the planet.
The seasons spring and fall are caused by the tilt of the Earth's axis and the revolution of the Earth. When it is spring in the U.S, sunlight is evenly distributed to both hemispheres, a little bit more in the U.S. When it is fall, sunlight is evenly distributed to both hemispheres, a little bit less in the U.S.
This is a question without an answer. What is clear, however, is that extracting diamonds from the earth is expensive and dangerous: diamonds are not as common as air or water, for example. It is not possible to determine how many diamonds there may be on earth, but it may be accurate to write that diamonds are not necessarily 'in abundance' on earth.
Diamonds are mined, so whatever effect mining may have on the earth is made when diamonds are mined.
Since the natural resource of diamonds has not been exhausted, it is not possible to estimate how many diamonds are on --and in -- the earth.
they r not evenly distributed , they r concentrated on one particular area or rock formation , thry r formed in different types of geological environments , under varying conditions . I hope u get help from the above answer :P ( just learned )
The sun does not have an atmosphere. In the earth, the temperature in the different layers is not evenly distributed.
fresh water is evenly distributed over earth
it might have something to do with light, but i thought that it was Gods love.
The seasons spring and fall are caused by the tilt of the Earth's axis and the revolution of the Earth. When it is spring in the U.S, sunlight is evenly distributed to both hemispheres, a little bit more in the U.S. When it is fall, sunlight is evenly distributed to both hemispheres, a little bit less in the U.S.
solution
no
Transformers
Of course they. If not, they would not be "in solution".If substances of a solution are evenly distributed then they have reached equilibrium.
They are most common at plate boundaries.
solution
This a nonhomogeneous mixture.
The electrical charge is evenly distributed.