radiation can travel through air
Eventually they will move in a downward direction toward a place of deposition, due to gravity. Over long spans of time, however, they could be moved in any direction from tectonic forces.
slowy going up
The answer is (The energy necessary to move an electron from one orbit to another)
it moved south and west so left
the direction depends on the concentration of materials, materials moved by diffusion move from a region of high concentration to a region of low concentration
no, the image will move in the opposite direction.
He moved his armies eastward.
The rear sight must move in the direction you want the point of impact to move. The front sight can be moved in the opposite direction.
It is seen in the opposite direction in which you moved it. I did this experiment last Friday.
Industries moved west in the 1800s.
It will move to the right.
The movement is rectangular from left to right.
In microscopy, the image moves in a different direction from how the slide is moved because the lens of a microscope inverts the image. The image moves in the opposite direction from the slide.
Eventually they will move in a downward direction toward a place of deposition, due to gravity. Over long spans of time, however, they could be moved in any direction from tectonic forces.
The same direction because it's only when the slide is moved left to right that it looks different... [I think]
slowy going up
First radiation is the transmission of high energy particles. when you apply radiation to an object the energy from those particles is transmitted into the object. this additional energy is transmitted into the particle by "bumping" into the atoms or molecules that make up this object. by hitting those atoms with these fast moving particles you transmit that energy into the atoms of the object. this causes the atoms to move much faster than they were before. and the movement of these atoms contributes to the temperature of the object