You may have neglected to copy something else that
goes with the question, as there are no "above lines".
None of them.
parallel lines = a set of parallel lines above
2 parallel lines * * * * * The above answer is not wholly correct. A hexagon can have one, two or three pairs of parallel lines: a regular hexagon has 3 pairs.
2 parallel lines * * * * * The above answer is not wholly correct. A hexagon can have one, two or three pairs of parallel lines: a regular hexagon has 3 pairs.
A hexagon has three pairs of parallel sides. A pentagon has no lines parallel. Above answer is correct but only if they are regular hexagon and pentagons. A non-regular hexagon can have as little as none parallel lines. A non-regular pentagon can have two parallel lines.
None of them.
Base on the slope of two linear equations (form: y = mx+b, where slope is m): - If slopes are equal, the 2 graphs are parallel - If the product of two slopes equals to -1, the 2 graphs are perpendicular. If none of the above, then the 2 graphs are neither parallel nor perpendicular.
Technically isn't it perpendicular? If it isn't parallel, then they will eventually touch because lines go on forever and if you were to extend it, they'd touch.
|_ example of a perpendicular line is shown above:
Leinster, the province in Ireland, is above the 26th parallel.
Alaska is entirely above the 49th parallel. The Lake of the Woods part of Minnesota is also above the 49th parallel, but the rest of the state is not.
In two dimensions the lines would be intersecting lines not perpendicular (I believe this is called transversal, see related link). If you are in three dimensions they would be skew lines, like to jets crossing above you that don't hit each other. One is higher than the other.
That is impossible, because, if it is parallel to it, it can not be above it nor below it.
No
parallel lines = a set of parallel lines above
Uranus's axis of rotation is tilted at about 98 degrees from the perpendicular to its orbital plane. This means its axis is roughly in the plane of its orbit. It looks as if it's rotating "on its side" so to speak. So rotation is clockwise when viewed from "above " the plane of its orbit. ("Above" is the direction above the Earth's North Pole.)
Uranus's axis of rotation is tilted at about 98 degrees from the perpendicular to its orbital plane. This means its axis is roughly in the plane of its orbit. It looks as if it's rotating "on its side" so to speak. So rotation is clockwise when viewed from "above " the plane of its orbit. ("Above" is the direction above the Earth's North Pole.)