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U have to include the segments of lines and rays and stuff. Also u have 2 direct it in the method it says to do it in.

Q: What must you include on a line when drawing a line on a plane?

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False. In order for the line PQ to lie in plane B, then both P and Q must lie in plane B.

A single line is not sufficient to define a plane. You can find a plane such that the line is in it. But if you then rotate the plane using that line as the axis of rotation, you can get an infinite number of planes such that the line belongs to each and every one of the planes.

That depends. How tough do you think it would be to draw a horizontal line or a slanting line on the wall ?

Yes. In fact, if they are not the same plane, then they must intersect in a unique straight line.

No. For three vectors they must all lie in the same plane. Consider 2 vectors first. For them to resolve to zero, they must be in opposite direction and equal magnitude. So they will lie along the same line. For 3 vectors: take two of them. Any two vectors will lie in the same plane, and their resultant vector will also lie in that plane. Find the resultant of the first two vectors, and the third vector must be along the same line (equal magnitude, opposite direction), in order to result to zero. Since the third vector is along the same line as the resultant vector of the first two, then it must be in the same plane as the resultant of the first two. Therefore it lies in the same plane as the first two.

Related questions

A straight line MUST lie in a plane. A curved line may or may not.

The plane of a satellite's orbit must include the center of the earth.

the line must be thick and not made from thread

False. In order for the line PQ to lie in plane B, then both P and Q must lie in plane B.

X and Y

If it is a straight line it must be in the same plane. Otherwise not necessarily.

line-drawing

A single line is not sufficient to define a plane. You can find a plane such that the line is in it. But if you then rotate the plane using that line as the axis of rotation, you can get an infinite number of planes such that the line belongs to each and every one of the planes.

No, a plane can contain only one point of a line. Picture a piece of paper with a pencil stabbed through it. The paper is the plane, and the pencil is the line. The pencil/line only touches the paper/plane at one point. Hope this helped! If it did, please recommend me. -Brad

You do not need a coordinate plane to draw a polygon. A polygon is simply a plane shape whose boundaries are straight line segments that meet at their ends but do not cross. So draw any number of points and draw straight ines from one to the next, and on to the next, and so on except that you must not cross an existing line and the last line must end at the starting point. And there you have it: your polygon!You do not need a coordinate plane to draw a polygon. A polygon is simply a plane shape whose boundaries are straight line segments that meet at their ends but do not cross. So draw any number of points and draw straight ines from one to the next, and on to the next, and so on except that you must not cross an existing line and the last line must end at the starting point. And there you have it: your polygon!You do not need a coordinate plane to draw a polygon. A polygon is simply a plane shape whose boundaries are straight line segments that meet at their ends but do not cross. So draw any number of points and draw straight ines from one to the next, and on to the next, and so on except that you must not cross an existing line and the last line must end at the starting point. And there you have it: your polygon!You do not need a coordinate plane to draw a polygon. A polygon is simply a plane shape whose boundaries are straight line segments that meet at their ends but do not cross. So draw any number of points and draw straight ines from one to the next, and on to the next, and so on except that you must not cross an existing line and the last line must end at the starting point. And there you have it: your polygon!

That depends. How tough do you think it would be to draw a horizontal line or a slanting line on the wall ?

A technical drawing will show all the surfaces that are to be modified, say for example by machining. The various views, like top, side and front are put on the page in a location such that if the page was folded the views would be in the correct location as if looking at the part through the walls of a glass box.The fold line is the line where you would fold the page to make the various drawing views come out in the proper location.The fold line is often a dashed line as long as the part with 2 long and 2 short dashes.A view can also be made of a surface (or plane) that is not right angles to the other views. This is helpful for a machinist setup where the part is mounted square to their cutting tools.No matter what drawing standards say, if the drawing is not clear for its intended purpose, it must be changed in any manner needed to make it clear.BuckBuckAutomation.com