There are 28 lines segments that both have their endpoints located at the vertices of a given cube.
the endpoints lie on each other
A line segment would define the given description.
The length of a line segment is called the distance. To find the distance, you need to know the coordinate of its endpoints given as (x1, y1) and (x2, y2) and the distance formula.
To calculate the x-coordinate of the midpoint of a horizontal segment, you simply take the sum of x-coordinate of the endpoints of the horizontal segment and divide this by two. An example is if one is given endpoints with th x and y coordinates 2,3 and 5,6. To find the midpoint of the x-coordinates add 2 and 5 and divide this by 2, or 7/2.
An irregular 5 sided pentagon that looks like a hut would fit the given description.
Midpoint = (x1+x2)/2 and (y1+y2)/2 So the midpoint is (4, 5)
Points:(4, 3) and (10, -5) Midpoint: (4+10)/2, (3-5)/2 = (7, -1)
-- The x-coordinate of the midpoint is the average of the x-coordinates of the end-points. -- The y-coordinate of the midpoint is the average of the y-coordinates of the end-points. -- The average of two numbers is 1/2 of (the first number plus the second number).
"Coding segments" is the term given to genes, segments of the DNA strand that code for a protein. Much of an organism's genome is non-coding segments, portions that do not have a role in protein synthesis.
An endpoint is what happens when something has reached completion. It is also the final stage of a given process.
Yes the given segments would form an isosceles triangle
Yes the given segments would form an isosceles triangle
the endpoints lie on each other
(0.5, 2)
It finds the co-ordinates of the midpoint of a line segment, given the co-ordinates of the two endpoints.
something
If it's on a graph (cartesian) then use Pythagoras. Assume endpoints are (a,p) and (b,q) length=sqrt((a-b)^2+(p-q)^2) ... where sqrt means square root. idk