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What is where all medians of a triangle intersect?
The centroid of a triangle is the point of intersection of the medians and divides each median in the ratio 2:1
What term describes the point where the three medians of a triangles intersect?
The point where the three medians of a triangle intersect is called the centroid. The centroid is the center of mass of the triangle and divides each median into a ratio of 2:1, with the longer segment being closer to the vertex. It is also a point of balance for the triangle.
Centroid of a triangle?
The centroid of a triangle is the point of intersection of its three medians. Each median of a triangle connects a vertex to the midpoint of the opposite side. The centroid divides each median into two segments with a ratio of 2:1, closer to the vertex.
1. Parellel lines do not intersect each other?
yes or no
What is the point of concurrency of the medians?
The point of concurrency of the medians of a triangle is known as the centroid. This point is located at the intersection of the three medians, each of which connects a vertex of the triangle to the midpoint of the opposite side. The centroid serves as the triangle's center of mass and divides each median into segments with a 2:1 ratio, with the longer segment being closer to the vertex.
What is the point of intersection of the medians in a triangle is called?
The point of intersection of the medians in a triangle is called the centroid. The centroid is the point where the three medians meet, and it serves as the triangle's center of mass or balance point. It is located two-thirds of the distance from each vertex along the median to the midpoint of the opposite side. The centroid has the property of dividing each median into a ratio of 2:1.
Can two different planes intersect a line?
Yes, there are three ways that two different planes can intersect a line: 1) Both planes intersect each other, and their intersection forms the line in the system. This system's solution will be infinite and be the line. 2) Both planes intersect the line at two different points. This system is inconsistent, and there is no solution to this system. However, both planes will still be intersecting the same line, albeit at different locations on the line. 3) Both planes intersect each other, but their intersection does NOT form the line in the system. However, if the line in the system intersects the planes' intersection, then they will all intersect a single point. The solution will be finite and be a single point. There are also 3 ways two different planes WON'T both intersect a line. 1) The two planes and the line are all parallel to each other, and none of them intersect each other. 2) The line is parallel to one plane, but intersects the other plane. 3) The same as #2, but now the line is parallel to the other plane and intersects the one plane.
What are characteristics of indifference curve?
1.it is convex to the origin 2.they can not intersect each other 3.they dnt need to be parallel to each other 4. they can't touch the axis 5.they are negativley sloped
Where is the middle of a triangle located?
The middle of a triangle is often referred to as the centroid, which is the point where the three medians intersect. A median is a line segment drawn from a vertex to the midpoint of the opposite side. The centroid is also the triangle’s center of mass and is located two-thirds of the distance from each vertex along the median. This point divides each median into a ratio of 2:1.
What best describes the centroid of a triangle?
The centroid of a triangle is the point where its three medians intersect, which are the line segments connecting each vertex to the midpoint of the opposite side. It serves as the triangle's center of mass and divides each median into a ratio of 2:1, with the longer segment being closer to the vertex. The centroid is always located inside the triangle, regardless of the triangle's shape.
What is the maximum number of distinct intersections of 30 different coplanar circles?
No two circles can intersect more than twice. Each circle can intersect with each other circle. Thus there ought to be 2 × 30 × (30 - 1) intersections. However, this counts each intersection twice: once for each circle. Thus the answer is half this, giving: maximum_number_of_intersections = ½ × 2 × 30 × (30 - 1) = 30 × 29 = 870.
Why kite is a special quadrilateral?
Its diagonals are perpendicular and intersect each other at right angles or 90 degrees with 1 pair of opposite angles equal in size and 1 pair of unequal opposite angles
