The equation ( \text{H}2\text{O}{s} \xrightarrow{\text{heat}} \text{H}2\text{O}{l} ) describes the phase transition of ice (solid water) to liquid water when heat is applied. As heat is added, the molecules in the solid state gain energy, causing them to break free from their rigid structure and transition to the liquid state. This process is known as melting.
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.