if two planes intersect
then they intersect in exactly one line
When two planes intersect, they do so at a line that lies at the point of intersection. This line is known as the line of intersection. The line of intersection is formed by the plane that both of the planes share, and any plane that is perpendicular to this plane will cause this line to be a point of intersection.
If the two planes are not parallel, then they will intersect at some angle. The angle at which they intersect depends on the angle between the two planes, which in turn depends on the orientation of the vectors that define the two planes.
To find the line of intersection between two planes, you can use several methods. One method is to solve a system of equations that represent both planes using their equations. You can find the equations of both planes by taking three points on each plane and applying vector algebra to find the normal vector of each plane. Then you can take the cross product of the two normal vectors and use this as the direction vector for the line of intersection.
Another method is to use the dot product of the two normal vectors of the planes. This will give you the cosine of the angle between the planes, which can help you determine whether they intersect or not. If the two planes are parallel, their normal vectors will be scalar multiples of each other, and the dot product will be equal to 1 or -1, depending on whether they point in the same or opposite directions.
To find the angle between the planes, you can use the dot product of their normal vectors along with the magnitude of the normal vectors. The angle between the planes is then given by the inverse cosine of the dot product over the product of the magnitudes of the two normal vectors.
In summary, when two planes intersect, they do so at a line of intersection. This line can be found by taking the cross product of the two normal vectors of the planes, or by solving a system of equations that represent both planes. The angle at which the planes intersect depends on the angle between their normal vectors, and the angle can be found by taking the inverse cosine of the dot product of the normal vectors over the product of their magnitudes.
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