(9,8) & (-6,-6)
Remember the Pythagorean Equation
d^2 = x^2 + y^2
Hence the distance between the 'x' coords is 9 -- 6 = 15
and the'y' coords is 8 - - 6 = 14
Hence
d^2 = 15^2 + 14^2
d^2 = 225 + 196
d^2 = 421
d = sqrt(421) = 20.518 (3 d.p.)
If you mean points of (9, 8) and (-6, -6) then by using the distance formula it is the square root of 421 or about 20.5 units
EEx. 35 basis points would be .0035.
2.00
Yes, because the distance is a metric which is defined in that way.
Write them one above the other with the decimal points aligned.
The main difference is that with whole numbers the decimal point is "hiding" (after the last digit of each whole number) whereas with decimal numbers it is clearly visible. In both cases the numbers are added with the decimal points aligned - with whole numbers there are no digits after the decimal points so the decimal points are not written, but if they were they would be visible after the last digit of the whole numbers and they would be automatically aligned; with decimal numbers there may be a different number of digits after each decimal point so it is up to the person doing the arithmetic to ensure the decimal points are aligned.
The distance between the points of (2, 3) and (7, 0) is the square root of 34
Using the distance formula it is the square root of 61 which is about 7.8 to the nearest tenth
If you mean points of (-3, 5) ans (9, -2) then the distance works out as the square root of 193 which is about 14 rounded to the nearest integer
61
caca
The distance between two points is called the "distance" or "Euclidean distance" in geometry.
I assume you refer to the distance between the points.I assume you refer to the distance between the points.I assume you refer to the distance between the points.I assume you refer to the distance between the points.
Yes, the x-distance, y-distance, z-distance, or any combination of the three between any two points may be zero Not possible. If the distance between two points is zero then the points are the same.
Points: (6, 5) and (-3, -8) Distance: 15.81 to the nearest hundredth
First, you draw a number line. You then make points for the counting numbers, and place the mixed numbers and decimals between these points, getting their own points and labels.
the distance between two points is length
The distance between identical points on a wave is called wavelength.