mechanical and isometric
Distinct Lines are two (or more) lines that are not equal. This means that they are not the same line (do not have the same equation)
Then they are not parallel, nor skew (in 3D).
FALSE!!
No. In order to be parallel, two lines would have to have the same slope, and different intercepts.Why? Two lines with different slopes, but the same intercepts would result in two intersecting lines. Two lines with the same slope, and the same intercept would result in the same line. Two lines with the same slope, and different intercepts would be parallel.
Same slopes and different intercepts
The intersection of two lines can be any of the following:NothingA single pointAn entire line (that means the two lines are NOT distinct)
Not if they are straight lines.
Distinct Lines are two (or more) lines that are not equal. This means that they are not the same line (do not have the same equation)
No. Two distinct points define a single line.
A vertex? In non-euclidean geometry: A two distinct parallel lines intersect in the "Infinity zone"
The intersection of two distinct lines occurs at a single point if the lines are not parallel. This point is where the lines meet or cross each other in a two-dimensional plane. If the lines are parallel, they do not intersect at any point, and if they are coincident, they overlap completely but are not considered distinct.
Two distinct lines can intersect at most at one point. If the lines are not parallel, they will cross at a single point. If they are parallel, they will never intersect. Therefore, the maximum number of intersection points for two distinct lines is one.
yes
transversal
All lines are defined by two or more distinct points.
IT is Secant .. If I am correct .. I ain't sure about my answer =) * * * * * A transversal.
A shape that contains at least two distinct intersecting lines is a figure called a cross. A cross consists of two lines that intersect perpendicularly at their midpoint.