3.9 and 2.6
At a measure of approx 7.4164 inches.
no
If you mean points: (-9, 7) and (3, -8) Then slope is: -5/4 Midpoint: (-3, -0.5) Equation: y = -1.25x -4.25 Plot the line segment on a graph and then divide it into a ratio of 2 to 1 to find the coordinate.
yor mom is fat
As volume is length x length x length, cube the ratio of the lengths, thus: Ratio of lengths = 2 : 5 ⇒ Ratio of volumes = 23 : 53 = 8 : 125
-- ADD the two numbers in the ratio.-- Then divide the line segment into that many equal pieces.-- From one end, count off a number of pieces equal to either number in the ratio.-- At the point after that many pieces, the two parts of the line segment on either sideof it are in the desired ratio.
Centroid
Lenght to width
At a measure of approx 7.4164 inches.
6.8 cm
no
Using the distance formula the length of the line segment from (10, -3) to (1, -3) is 9 units which means that the line segment is partitioned by 2 units and 7 units. To find the coordinates of point R plot the above information on the Cartesian plane.
The length of the line works out as 9 units and so by plotting the information on the Cartesian plane the exact location of the partition at R can be found.
The centroid of a triangle is the point of intersection of the medians and divides each median in the ratio 2:1
The diameter of a circle is the length of a straight line segment going through the circle and with endpoints on the circle itself. A ratio is a comparison of two numbers using the operation of division. That means that there is no such thing as the ratio of a circle. However, there is a ratio of the circumference of the circle (the length of the path around the circle) and its diameter. That ratio has the value pi, which is about 3.141592653589793...
The radius of a circle is the distance from the center to any point on the circle. The diameter is twice as much; it is the length of a line segment from one point on a circle to another point on it that passes through the center. Pi is a constant, equal to approximately 3.1416 (the exact value is irrational), which is defined as the ratio of the circumference of any circle to its diameter (all circles are similar so the ratio is always the same).
This can be solved using something called 'The Golden Ratio', when the longer segment is compared to the whole is about 1.618033988... The Golden Ratio is the ONLY ratio capable of this.