0
x = -1.2153
x = 2.0614
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Does a rational function have all three types of asymptotes in its graph?
Not necessarily. The denominator need not have any real zeros, for example x2+1. Not necessarily. The denominator need not have any real zeros, for example x2+1. Not necessarily. The denominator need not have any real zeros, for example x2+1. Not necessarily. The denominator need not have any real zeros, for example x2+1.
Is 0.062 equivalent to 0.62?
Yes it is, because zeros mean nothing so the real number for both of these questions would be the same if you crossed out all the zeros.
What is the answer Find all the zeros of x3-5x2-x plus 5?
They are -1, 1 and 5.
Is 3.01 equivalent to 3.010?
yes. technically all decimals have an infinite amount of zeros behind them. you just have to apply significant digits to find how much zeros you are suppose to write.
How do you find the zeros in an equation by looking on a graph?
They are all the points where the graph crosses (or touches) the x-axis.
How do you find all real and complex roots?
In general this question is unanswerable. However, you can consider Newton's method to make very good estimates. Equations can be very complex in that their curves have poles and zeros where you do not expect them. Consider Riemann's Zeta function Z(z) = Sum(1/n^z, n>0). It has complex zeros on the line z=1/2, but up to this date, the distribution of the zeros is not entirely known!
How do you figure out how many real zeros a problem has?
That really depends a lot on the type of problem. There is no general way to solve all types of problems.
Where do you find complex numbers in algebra?
Certain functions, when solving to find the zeros (value which makes the function equal zero), the only value which will work has an imaginary component. Note that a parabola (graph of a quadratic or 2nd order polynomial) can touch the x-axis at a single point, or 2 points or no points. If it does not touch or cross the x-axis, then the root (or zeros) of the function are complex with imaginary components.Technically, all real numbers are a subset of complex numbers, so all numbers are complex - but this is not how we normally refer to them. We usually say that a number is real, or it is imaginary, or it is complex.
How do you find all the zeros of a function?
You could try setting the function equal to zero, and finding all the solutions of the equation. Just a suggestion.
How many zeros does 7500 billion dollars have?
7500 followed by 9 zeros; that is 75 followed by 11 zeros in all
In the RGB color palette black is represented by all zeros?
Yes all zeros would be the color black.
What are all the possible rational zeros of 50?
50 has no zeros. It's equal to 50 under all conditions.
