7/12 and 7/12 is the answer
7/12 and 7/12 is the answer
If a hyperbola is vertical, the asymptotes have a slope of m = +- a/b. If a hyperbola is horizontal, the asymptotes have a slope of m = +- b/a.
Consistent means that the equation does not have the same slopes. Inconsistent means that it has the same slope.
The general form of an equation for a line isaX + bY = c.Since perpendicular lines have different slopes and different x and y intercepts the parameters a, b, and c are different for perpendicular lines
The two lines have identical slopes if they are parallel to each other. If y1 = mx1 + c is the equation for one line then y2 = mx2 + d is the equation of a parallel line where c ≠ d. "m" is the slope which is the same value in both equations.
7/12 and 7/12 is the answer
Asymptotes are the guidelines that a hyperbola follows. They form an X and the hyperbola always gets closer to them but never touches them. If the transverse axis of your hyperbola is horizontal, the slopes of your asymptotes are + or - b/a. If the transverse axis is vertical, the slopes are + or - a/b. The center of a hyperbola is (h,k). I don't know what the rest of your questions are, though.
If a hyperbola is vertical, the asymptotes have a slope of m = +- a/b. If a hyperbola is horizontal, the asymptotes have a slope of m = +- b/a.
Two parallel lines have equal slopes.
Two parallel lines have equal slopes.
If the slopes of a straight line equation are the same but with different y intercepts then they are parallel.
Consistent means that the equation does not have the same slopes. Inconsistent means that it has the same slope.
Generally no, because a river's gradient is usually rather asymptotic: its head waters run off fairly steep hill slopes but its lower reaches are on much lower gradients. It's not a hard-and-fast rule, but most rivers behave in that way.
it is used to find the equation of lines and it is used to find the basic formula for finding angles in triangle, orthocentre, alititudes.etc
both have steep slopes both have exponents in their equation both can model population
The slopes of perpendicular lines are reciprocals of each other. For example. if one line had an equation like y= 2x+4 then the perpendicular's slope would be y=x/2+4 -- they are reciprocals of each other.
The general form of an equation for a line isaX + bY = c.Since perpendicular lines have different slopes and different x and y intercepts the parameters a, b, and c are different for perpendicular lines