A=S2... Where A = area, and S = length of one side.
Of course not! The solution to some equations could represent the area under a curve, or the volume of some shape, or the rate of change in something.
Use the quadratic equation. If ax+bx+c=0 x=(-b±(b^2-4ac)^(1/2))/2a. You could also complete the square, factor,or graph the equation.
The letter V represents a function when drawn on a coordinate plane.
There are infinitely many options. The equation could be a polynomial of degree greater than 1, or it could be a power function, a log function or any combination of these with trig functions. The problem is exacerbated by the fact that there is no clue in the question as to what a stands for.
You are asking for the square root of 117649 - which is 343 (which you could get by using the square root function on most calculators).
Of course not! The solution to some equations could represent the area under a curve, or the volume of some shape, or the rate of change in something.
It could represent a point whose coordinates do satisfy the requirements of the function.
In the equation of a periodic motion it could represent the amplitude, frequency or phase.
It could represent an unknown variable in an expression or an equation.
Use the quadratic equation. If ax+bx+c=0 x=(-b±(b^2-4ac)^(1/2))/2a. You could also complete the square, factor,or graph the equation.
y0(x) could represent a function of x but usually y(0) represents the function y that is evaluated at x = 0 and so is no longer a function of x but a constant.
7.5
12
You cannot, necessarily. Given a graph of the tan function, you could not.
The letter V represents a function when drawn on a coordinate plane.
A set of points forming a straight line.
You could try setting the function equal to zero, and finding all the solutions of the equation. Just a suggestion.