An ellipse is described as [ (x/A)2 + (y/B)2 = C2 ] If [ A=B ] then the ellipse is a circle.
No line described, but here is the point slope form. Y - Y1 = m(X - X1) =============
momentum is described as mass times velocity. p=mv.
Finding the point that lies on the line described by the equation y - 8 - 3x - 6 can be easily found. Plug in the appropriate (x,y) values, one at a time, and you will find the value for the variable you did not plug in/
Slope: -2 Intercept: 5
Melting
its solid state :0)
That's the "solution" to the equation described by the sentence.
The rate at which a chemical process occurs is usually best described as a differential equation.
The net process of photosynthesis is described by the following equation: 6CO2 + 6H2O + Light Energy = C6H12O6 + 6O2
Mass Energy.
I don't think there is a special name for that. Note that not all functions can be described by a single equation - at least, not in a natural way. For example, a function may be described by parts.
An ellipse is described as [ (x/A)2 + (y/B)2 = C2 ] If [ A=B ] then the ellipse is a circle.
That's the "solution" to the equation described by the sentence.
That's the "solution" to the equation described by the sentence.
Equation of a straight line is: y = mx+c whereas m is the slope and c is the y intercept
That of course would depend on the straight line equation that has not been given and so therefore an answer is not possible.