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The following are all bisected by the diagonal of a square:The corner anglesThe surface of the squareThe other diagonal
An oblique line (line that slants) from one part of the shape to the other e.g from one corner of a square to the opposite corner is a diagonal line. I hope this solved your problem
If the vectors emanting from one corner of the rectangel are called a and b then. (a) + (b) = one diagonal (a) + (-b) = the other diagonal and |(a) + (b)| = |(a) + (-b)| (the absolute value of the diagonal's scalars are equal)
This will work with any rectangle, but not with some other weird shape: -- Stretch a string on the diagonal, i.e. from one corner to the opposite corner. Tape it down. -- Stretch another string on the other diagonal, i.e. between the two remaining corners. The point where the second string crosses the first string is the center of the floor.
Assuming that the 40 and 30 refer to sides of a rectangle and not to any of the infinite number of other possible shapes, the answer is 50.
The following are all bisected by the diagonal of a square:The corner anglesThe surface of the squareThe other diagonal
Measure from one corner to the diagonal corner, and then switch and measure the other 2 diagonal corners. If the measurements are the same, then the walls are at right-angles to each other.
An oblique line (line that slants) from one part of the shape to the other e.g from one corner of a square to the opposite corner is a diagonal line. I hope this solved your problem
It measures 9.7" on the diagonal. Its other dimensions are 7.75×5.82"
If the vectors emanting from one corner of the rectangel are called a and b then. (a) + (b) = one diagonal (a) + (-b) = the other diagonal and |(a) + (b)| = |(a) + (-b)| (the absolute value of the diagonal's scalars are equal)
it depends on what you mean by a diagonal. If you take a diagonal to mean a line from one corner to the "opposite" corner, then a nonagon doesn't have any, and a decagon has five. The reason a nonagon doesn't have any, is that the corners aren't opposite each other.
That depends on where any other pieces are on the board. The minimum is 2, but the maximum may be 20 or higher.
3 ----------- Each vertex (corner) has a diagonal with each other vertex. Your best bet is to draw a septagon and count them (clue: it's less than 343 but more than 7)
there is many different sizes, they are measures by the screen , the most common ones are : 15" and 17"
This will work with any rectangle, but not with some other weird shape: -- Stretch a string on the diagonal, i.e. from one corner to the opposite corner. Tape it down. -- Stretch another string on the other diagonal, i.e. between the two remaining corners. The point where the second string crosses the first string is the center of the floor.
Assuming that the 40 and 30 refer to sides of a rectangle and not to any of the infinite number of other possible shapes, the answer is 50.
The next button should be on the top-left corner of the screen. Pretty much on top of the other person's screen.