a transversal
Equator latitude lines
Like this -> Vertical would be top to bottom, which goes from 0 to 180 degrees Horizontal would be left to right, which goes from 90 to 270 degrees Lines are parallel when their angles and orientations are the same. Therefore you can also have diagonal (corner to corner) parallel lines as well.
if there are two planes, and they are parallel, then i would assume that their lines are parallel too. so yeh yeh a line in one plane is parallel to a line in the other plane...since they are parallel(:ha * * * * * No. Consider yourself in a cuboid room. The wall in front of you and the wall behind you are parallel planes. There is a line on the wall behind you that goes vertically, from the floor to the ceiling. There is a line on the wall in front of you that goes horizontally from left to right. These two lines are on parallel planes, but the lines are NOT parallel. So, (: ha to the person who answered the question previously!
Suppose the top face of the pyramid is ABCD with the square EFGH directly below it.Suppose AC and BD meet at P, the apex of the pyramid.Make a cut with a plane through P which is parallel to AB and goes through EF.Make a cut with a plane through P which is parallel to BC and goes through FG.Make a cut with a plane through P which is parallel to CD and goes through GH.Make a cut with a plane through P which is parallel to DA and goes through HE.The result will be the square-based pyramid PEFGH.
You may have neglected to copy something else that goes with the question, as there are no "above lines".
It's called a latitude (But you asked for the name of the LINE that goes around the Earth like a parallel belt)
Equator latitude lines
The word parallel means that one set (or more) of lines will never touch, even if the line goes on forever.Example of a set of parallel lines:_______________________________________________________Note: parallel lines do not have to be in equal length.
Like this -> Vertical would be top to bottom, which goes from 0 to 180 degrees Horizontal would be left to right, which goes from 90 to 270 degrees Lines are parallel when their angles and orientations are the same. Therefore you can also have diagonal (corner to corner) parallel lines as well.
rectangle a set that goes horizontal and a set that goes diagnal
The lines that run from pole to pole are lines of longitude. The Prime Meridian (zero) runs through the Greenwich Observatory, London.
if there are two planes, and they are parallel, then i would assume that their lines are parallel too. so yeh yeh a line in one plane is parallel to a line in the other plane...since they are parallel(:ha * * * * * No. Consider yourself in a cuboid room. The wall in front of you and the wall behind you are parallel planes. There is a line on the wall behind you that goes vertically, from the floor to the ceiling. There is a line on the wall in front of you that goes horizontally from left to right. These two lines are on parallel planes, but the lines are NOT parallel. So, (: ha to the person who answered the question previously!
Suppose the top face of the pyramid is ABCD with the square EFGH directly below it.Suppose AC and BD meet at P, the apex of the pyramid.Make a cut with a plane through P which is parallel to AB and goes through EF.Make a cut with a plane through P which is parallel to BC and goes through FG.Make a cut with a plane through P which is parallel to CD and goes through GH.Make a cut with a plane through P which is parallel to DA and goes through HE.The result will be the square-based pyramid PEFGH.
You may have neglected to copy something else that goes with the question, as there are no "above lines".
A new song called parallelism, it goes parallel one, parallel two, parallel three
Yes, parallel lines have the same slope. Parallel means that the lines go on forever and never cross - so, you could practically put one line on top of the other and it would have the same slope (how much it rises in relation to how far over it goes). The only difference between two lines that are parallel is their y-intercept (where they cross the y-axis).
Fold the paper so the line is on itself. Fold this folded edge on itself causing a crease to form that goes through the point in question, You are using the theorem that lines perpendicular to the same line are parallel.