Answer:
Step-by-step explanation:
From the table attached,
x-intercept of the linear function is, the value of 'x' when f(x) = 0
x = 3 [x-intercept]
Function 'g' is the sum of 2 and the cube root of the sum of three time x and 1.
g(x) = ![2+\sqrt[3]{3x+1}](https://tex.z-dn.net/?f=2%2B%5Csqrt%5B3%5D%7B3x%2B1%7D)
For x-intercept,
g(x) = 0
![2+\sqrt[3]{3x+1}=0](https://tex.z-dn.net/?f=2%2B%5Csqrt%5B3%5D%7B3x%2B1%7D%3D0)
3x + 1 = (-2)³
3x + 1 = -8
3x = -8 - 1
3x = -9
x = -3
Therefore, the x-intercept of function 'f' is different or greater than the x-intercept of function g.
<span>b. 2πn this sounds like the right awnser to me
</span>
I notice that it turns out to be the opposite of the negative number if I did this correctly....
Answer:
Step-by-step explanation:
<h2><u>Given Expression</u> :-</h2>
<h2><u>Steps to factorise</u> :-</h2>
- Write the number in the exponential form with an exponent of 2
- Using a²-b² = (a-b)(a+b), factor the expression.
(<u>Refer the attachment for graph representation</u>)
<h2><u>Graph Details</u> :-</h2>
your answer for each would be the factor of whatever ur answer is for example 10 times 1.5 is ur first then so on and so forth
