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How do you prove that parallel lines never intersect?

How do you prove that parallel lines never intersect?

In a plane when you draw 2 parallel lines they don’t meet each other but terminate at the edge of the plane. Essentially we can then say that parallel lines in a finite plane do not meet each other. Now if the plane is of infinite size we may safely say that parallel lines meet each other at infinity.

Do parallel lines ever meet in the Euclidean geometry?

In Euclidean geometry parallel lines “meet” and touch at infinity as their slope is same. In flat Hyperbolic geometry parallel lines can also touch but only at at infinity.

Can 2 non parallel lines never intersect?

2 Answers By Expert Tutors If two lines in space and not in the same plane do not intersect, they are skew. The answer is yes. Two lines can only be non-intersecting if their slopes are exactly the same (otherwise they’d have to cross at some point).

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Can parallel lines intersect in non Euclidean geometry?

Weirdly enough, this does not mean that parallel lines intersect, but rather that seemingly parallel lines intersect – such as those on the basketball. In fact, in non-Euclidean geometry there are no parallel lines. But any lines on the earth’s surface, even if they seem parallel, eventually meet.

Where does 2 parallel lines meet?

Geometric formulation. In projective geometry, any pair of lines always intersects at some point, but parallel lines do not intersect in the real plane. The line at infinity is added to the real plane. This completes the plane, because now parallel lines intersect at a point which lies on the line at infinity.

When two lines are non intersecting and parallel then these lines are called?

Non-intersecting lines can never meet. They are also known as the parallel lines. They are always at the same distance from one another. This is called the distance between two parallel lines.

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What is the difference between Euclidean and non-Euclidean geometry?

While Euclidean geometry seeks to understand the geometry of flat, two-dimensional spaces, non-Euclidean geometry studies curved, rather than flat, surfaces. Although Euclidean geometry is useful in many fields, in some cases, non-Euclidean geometry may be more useful.

How do you prove two vectors are linearly dependent?

Two vectors are linearly dependent if and only if they are collinear, i.e., one is a scalar multiple of the other. Any set containing the zero vector is linearly dependent.

Euclidean geometry is flat (curvature = 0) and any triangle angle sum = 180 degrees. The non-Euclidean geometry of Lobachevsky is negatively curved, and any triangle angle sum < 180 degrees. The geometry of the sphere is positively curved, and any triangle angle sum > 180 degrees.

How do you know if a set is linearly independent?

If you make a set of vectors by adding one vector at a time, and if the span got bigger every time you added a vector, then your set is linearly independent. A set containg one vector { v } is linearly independent when v A = 0, since xv = 0 implies x = 0.

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What are the facts about linear independence?

Facts about linear independence 1 Two vectors are linearly dependent if and only if they are collinear, i.e., one is a scalar multiple of the other. 2 Any set containing the zero vector is linearly dependent. 3 If a subset of { v 1 , v 2 ,…, v k } is linearly dependent, then { v 1 , v 2 ,…, v k } is linearly dependent as well. More