Question

1. # Using The Given Zero, Find One Other Zero Of F(X). I Is A Zero Of F(X).= X4 – 2X3 + 38X2 – 2X + 37

If you’re looking for a way to find the zeroes of a polynomial, then you have come to the right place. In this article, we will explore the solutions to the given equation and how you can use one zero to find another. We’ll start by taking a look at the given polynomial, F(x) = x^4 – 2x^3 + 38x^2 – 2x + 37, and how it can be used to find another zero with just one zero given. We’ll look at the factors of this polynomial and how they relate to finding other zeros. So let’s get started!

## What is the given zero?

The given zero is the value of x that makes the equation F(x)=0 true. In this case, the given zero is 0. To find another zero of F(x), we need to find a value of x that makes the equation F(x)=0 true. We can do this by substituting values into the equation until we find one that works. In this case, we would start with 1, then 2, then 3, and so on until we find a value of x that makes the equation F(x)=0 true.

## How to use the given zero to find another zero of F(x)?

To find another zero of F(x), we can use the given zero, I, to create a new function, F1(x), which will have I as a zero. F1(x) is defined as follows:

F1(x) = F(x) – F(I)

= x – x + x – x + – (I – I + I – I +)

= x – 2I + x + I

Now that we have our new function, F1(x), we can use any methods we know to find its zeroes. For example, if we graph both F(x) and F1(x), we will see that they intersect at two points: I and another point, J. Therefore, J must also be a zero of F(x).

## What is a zero of F(x)?

Assuming F(x) is a polynomial function, a zero of the function is a value of x for which F(x)=0. In other words, a zero is a solution to the equation F(x)=0. If x=a is a zero of the function F(x), then we say that “a is a zero of F(x)”. We can also say that “F(a)=0”

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Are you looking for alternatives to the ketogenic diet? There are many options out there, so it’s important to do your research and find one that will work for you. Here are a few things to consider when choosing an alternative diet:

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## Conclusion

In this article, we have discussed the process of finding other zeroes of f(x) when given a certain zero, in our case x=i. We started by using long division to divide the polynomial by (x-i) and obtained a quotient equation with four terms. By setting this equation equal to 0, we were able to solve for any further roots that may exist. After solving for two complex numbers, we ended up with two real zeros: -1 and 37. Ultimately, it is important to keep in mind that the process discussed here can be used whenever you are dealing with polynomials and need to find more than one real root.

2. Are you a math whiz? Are you looking for a challenge? Well, you’ve come to the right place!

Today, we’ll be discussing how to use a given zero to find one other zero of a function. We’ll be using the function f(x) = x4 – 2×3 + 38×2 – 2x + 37, and the given zero is I.

Finding the other zeros of this function may sound daunting, but with the right approach, it’s actually quite simple. To begin, let’s factor the given function into its simplest form.

First, we’ll start by factoring out the greatest common factor (GCF). In this case, the GCF is 1 and the equation becomes: x4 – 2×3 + 38×2 – 2x + 37 = (x – 1) (x3 – x2 + 37x – 37).

Next, notice that x3 – x2 + 37x – 37 is a trinomial, so we’ll need to use the quadratic formula to solve it. This formula tells us that the other zero of the trinomial is: -b ± √(b2 – 4ac) / 2a

In the case of the trinomial, a = 1, b = -37, and c = 37. Using the above formula, the other zero of the trinomial is: -(-37) ± √((-37)2 – 4(1)(37)) / 2(1) = 37 ± √(1369) / 2 = 37 ± 37.07 / 2

Therefore, the other zero of the function f(x) = x4 – 2×3 + 38×2 – 2x + 37 is 37.07.

Hopefully, this article has helped you gain a better understanding of how to use a given zero to find one other zero of a function. Good luck, and happy math-ing!