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Can 2 distinct planes intersect at a point?
No, two distinct planes in three-dimensional space cannot intersect at just a single point. They can either be parallel and not intersect at all, or they can intersect along a line. If they intersect, the intersection will always be a line rather than a single point.
Can three planes intersect in one line?
If I understand the question, and if I am not mistaken, three or any number number of planes can intersect in one line.
Do two distinct planes intersect in a pair of lines?
No. The planes must either coincide (they are the same, and intersect everywhere), be parallel (never intersect), or intersect in exactly one line.
If two different planes intersect then they intersect at one and only one line?
Yes, if two different planes intersect in three-dimensional space, they do so along one and only one line. This is because the intersection of the two planes consists of all points that satisfy the equations of both planes simultaneously, which geometrically forms a line. If the planes are parallel, they do not intersect at all, and if they are coincident, they overlap completely, but in the case of two distinct planes, the line is the unique intersection.
What happens when three planes intersect?
Nothing HAPPENS! They can intersect in a point or a line.
Can three distinct planes intersect in a line?
Yes they can.
Can 2 distinct planes intersect at a point?
No, two distinct planes in three-dimensional space cannot intersect at just a single point. They can either be parallel and not intersect at all, or they can intersect along a line. If they intersect, the intersection will always be a line rather than a single point.
How many Two planes intersect in exactly?
Two distinct planes will intersect in one straight line.
Can three planes intersect in one line?
If I understand the question, and if I am not mistaken, three or any number number of planes can intersect in one line.
Do two distinct planes intersect in a pair of lines?
No. The planes must either coincide (they are the same, and intersect everywhere), be parallel (never intersect), or intersect in exactly one line.
If two different planes intersect then they intersect at one and only one line?
Yes, if two different planes intersect in three-dimensional space, they do so along one and only one line. This is because the intersection of the two planes consists of all points that satisfy the equations of both planes simultaneously, which geometrically forms a line. If the planes are parallel, they do not intersect at all, and if they are coincident, they overlap completely, but in the case of two distinct planes, the line is the unique intersection.
What happens when three planes intersect?
Nothing HAPPENS! They can intersect in a point or a line.
Can three planes all intersect in the same line?
Yes they can. In fact, infinitely many planes can intersect in one line, at least theoretically.
Can two planes in three-dimensional space intersect at one point?
No, they intersect at a line.
Two planes can intersect on exactly one point?
No, 2 planes may only intersect at a line, a plane, or not at all. THREE planes may intersect at a point though...
What is the two distinct nonparallel planes?
There is no "the" since there are infinitely many non-parallel planes. Two non-parallel planes are planes that intersect in a line.
Do planes intersect at a point?
No, planes intersect at a line.
