It is called evaluating the equation.
that means to replace the variable with it's value, and then do all the mathematical symbols as normal (+-x/)
Yes, I could, if I knew the slope of the line given.
So if given the equation x = 4 * 3 / 2 + 4 - 8 * 62 everyone will know how to interpret it and get the same answer
It could be: 6.3-2 = 4.3
It is called evaluating the equation.
that means to replace the variable with it's value, and then do all the mathematical symbols as normal (+-x/)
Yes, I could, if I knew the slope of the line given.
You cannot, necessarily. Given a graph of the tan function, you could not.
So if given the equation x = 4 * 3 / 2 + 4 - 8 * 62 everyone will know how to interpret it and get the same answer
yes because it doesn't have anything telling it not to
It could be: 6.3-2 = 4.3
There is no possible value of x that will satisfy the given equation. There is no possible value of x that will satisfy the given equation. There is no possible value of x that will satisfy the given equation. There is no possible value of x that will satisfy the given equation.
AGONSA is an acronym for Asked, Given, Operation, Numbers, Solution, Answer. It is a step-by-step guide to solving problems - mainly in mathematics but, with a little modification, in the wider context as well. 1. Asked: What does the question ask you to do? 2. Given: What information has been provided in the question. It is possible that some of the information is not required, but leave that to later. 3. Operation: Think about the question and decide what operations, and in which order, you need to perform. Generally these will be the four basic binary operations (+, -, x, /). While the operations could be more advanced, you will probably no longer need AGONSA by then. 4. Numbers: Identify the numbers on which you need to perform these operations. Some of these will be given to you explicitly. Others (eg number of grams in a kilogram) you may be expected to know. Still others you may be expected to work out - using a second level AGONSA. 5. Solution: Carry out the operation on the numbers to get the solution. 6. Answer: Write the answer.
It is the solution of the given equation.
If you have two equations give AND one parametric equation why do you need to find yet another equation?
The y-intercept (or y-intercepts) of an equation is where x = 0. Replace x with zero in the equation, and solve for y.The answer depends on what information you are given - and in what form. If the equation of the curve is given in polar coordinates or in parametric form, the process is quite different to that required when given the Cartesian equation.