Slope = (y-5)/(3--6) = 1/3
y-5 = 1/3*9
y = 3+5
y = 8
The slope is rise over run. If another line was parallel, the slope would be the same.
Slope is found by calculating rise over run. It represents the steepness of a line and the line's direction. The higher the absolute value of the slope, the more the line's steepness increases, and vice versa. If the slope is positive, the line is diagonal upwards to the right ( / ). If the slope is negative, the line is diagonal downwards to the right ( \ ). If the slope is zero, the line is horizontal. If it is "undefined", the line is a vertical line.
Without an equation, you know nothing about the slope of a line just because x equals 0. Slope is the change in y value divided by the change in x value over a segment of a line. When you only have a single x value, there is no change so the slope is undefined. Or if you are stating the value of x is 0 for all values of y, then the slope is infinite.
slope of line is the ration of the rise over the run
The slope is 5 over 2, if they're paralell they have the same slope
The slope of a line is defined by rise over run (or change in x/change in y). If the line y value of the line stays the same, while the x value changes, its slope is 0/x where x doesn't equal 0, and zero divided by any number is 0.
The slope is zero. Slope is rise over run, the rise is zero, so zero divided by anything is zero.
If y=4/7, then the line is a horizontal line. This means that there is infinite change in the x value without any change in the y value, so slope (change in y/ change in x) will be 0 divided by any number. Thus the slope is 0.
The larger the absolute value of the slope if, the more vertical, or steeper, the line is. A horizontal line has slope 0, a line that is just a very little bit steep, might have slope, 1/10, a line that is very steep might have slope 10/1 or 10, or even 1000000 and as that number gets bigger and bigger, the line becomes almost vertical. For practical purposes, the slope, or steepness, of the line can be determined by rise over run, or, with a 0/0 intercept, then y over x, or, y1-y2 over x1-x2.
The change in the y-value over the x-value, the slope, m, (y1-y2)/(x1-x2).
The slope of a straight line is commonly described as rise over run. In other words, it's the ratio of the change in the y direction to the change in the x direction. Therefore, lines with greater slopes are closer to vertical. A vertical line has infinite slope, and the slope of a horizontal line is zero.
The slope of a straight line is commonly described as rise over run. In other words, it's the ratio of the change in the y direction to the change in the x direction. Therefore, lines with greater slopes are closer to vertical. A vertical line has infinite slope, and the slope of a horizontal line is zero.