When the two denominator values in the eclipse standard equation are the same, it can be said to be in foci.
Just like any other equation, you can set up a table of x values, and calculate the corresponding y values. Then plot the points on the graph. In this case, it helps to have some familiarity with quadratic equations (you can find a discussion in algebra books), and recognize (from the form of the equation) whether your quadratic equation represents a parabola, a circle, an ellipse, or a hyperbola.
That is not necessarily so. You can have the X-Values in the numerator and the Y-values in the denominator. The only half-way decent explanation is in the X-values represent an independent variable and the Ys are dependent.
The graph of an equation is a visual representation of the values that satisfy the equation.
The solution to an equation consists of the value (or values) of all the variables such that the equation is true when the variable(s) take those values.
An equation is two expessions that have equal values
it becomes a circle
Just like any other equation, you can set up a table of x values, and calculate the corresponding y values. Then plot the points on the graph. In this case, it helps to have some familiarity with quadratic equations (you can find a discussion in algebra books), and recognize (from the form of the equation) whether your quadratic equation represents a parabola, a circle, an ellipse, or a hyperbola.
An oblique asymptote is another way of saying "slant asymptote."When the degree of the numerator is one greater than the denominator, an equation has a slant asymptote. You divide the numerator by the denominator, and get a value. Sometimes, the division pops out a remainder, but ignore that, and take the answer minus the remainder. Make your "adapted answer" equal to yand that is your asymptote equation. To graph the equation, plug values.
That is not necessarily so. You can have the X-Values in the numerator and the Y-values in the denominator. The only half-way decent explanation is in the X-values represent an independent variable and the Ys are dependent.
What sort of range-distance of an object, range of a plane, range of possible values, are all possible.
The denominator cannot be 0. A number with denominator 0 is not defined.
an equation that's true for all values is an identity.
Find values for the variable that satisfy the equation, that is if you replace those values for the variable into the original equation, the equation becomes a true statement.
The function is not defined at any values at which the denominator is zero.
The numerator and the denominator.
The graph of an equation is a visual representation of the values that satisfy the equation.
The solution to an equation consists of the value (or values) of all the variables such that the equation is true when the variable(s) take those values.