8. Two families went to Cobb Theatre to

Find the quadratic equation given that the roots are 3 and 9

il63 [147K]

Answer:

$\bold\purple{Quadratic \: \: eq {}^{n} = x {}^{2} - ( \alpha + \beta )x + \alpha \beta} \\$

Sum of roots ,

$( \alpha + \beta ) = (3 + 9) = 12$

Product of roots ,

$( \alpha \beta ) = (3)(9) = 27$

Substituting the values in the above equation ,

$\bold{x {}^{2} - ( \alpha + \beta )x + \alpha \beta} \\\\ \bold{⇢ x {}^{2} - (12)x + 27} \\\\ \bold\blue{ ⇢x {}^{2} - 12x + 27}$

hope helpful~

4 0

2 years ago

What is 880005 rounded to the nearest hundred thousand

pentagon [3]

The answer to your question is 900000

6 0

3 years ago

Read 2 more answers

Select the expression that has a value of 96.45

leonid [27]

Given:

Number is 96.45.

To find:

The expression that has a value of 96.45.

Solution:

In option a,

$0.9645\times 10^2=0.9645\times 100$

$0.9645\times 10^2=96.45$

In option b,

$9.645\div 10^1=\dfrac{9.645}{10}$

$9.645\div 10^1=0.9645\neq 96.45$

In option c,

$964.5\times 10^3=964.5\times 1000$

$964.5\times 10^3=964500\neq 96.45$

In option d,

$9645\div 10^3=\dfrac{9645}{1000}$

$9645\div 10^3=9.645\neq 96.45$

Therefore, the correct option is a.

5 0

3 years ago

I NEED HELP PLEASE!!!!!!!!!!

tekilochka [14]

Each 7 inches of the tv are equal to one inch of the phone. Therefore Divide 56 by 7 you get 8 56/7=8

7 0

4 years ago

Determine the rule for the number pattern and use it to find the missing values.

Kaylis [27]

9514 1404 393

Answer:

Each term in the pattern will be odd.

Step-by-step explanation:

The first differences are ...

7 -3 = 4

15 -7 = 8

These differ by 4, and the second is double the first.

These relationships between the first differences give rise to two possible sequences: a) an exponential sequence; b) a quadratic sequence. We can use a graphing calculator to find the coefficients of each of the patterns.

Exponential Sequence

a[n] = 2·2^n -1

The sequence is 3, 7, 15, 31, 63, 127, 255, 511, 1023, 2047.

The 10th term is 2047.

Quadratic Sequence

a[n] = 2n^2 -2n +3

The sequence is 3, 7, 15, 27, 43, 63, 87, 115, 147, 183.

The 10th term is 183.

__

Based on the above, the only thing we can say about these sequences is that they are all odd numbers.

Clearly, the 10th term is not 30. 7 is not a multiple of 3, so that observation fails immediately. 15 is not prime, so that observation also fails immediately.

_____

Additional comment

The differences of first differences are called "second differences". The differences of those are "third differences". and so on. If you keep taking differences of a sequence described by a polynomial, the n-th differences being constant means the sequence is described by an n-th degree polynomial.

Here, if we assume the 2nd differences are constant at 4, then the sequence is described by a 2nd-degree polynomial. (Similarly, constant first-differences are described by a 1st-degree polynomial--a linear function.)

If sequential levels of differences are all exponential sequences, then the sequence itself is an exponential sequence. As here, it may have a vertical offset. The base of the exponential will be the common ratio of the differences. (Here, the first differences have a ratio of 8/4 = 2, so the sequence could be exponential with a base of 2.)

6 0

3 years ago

Read 2 more answers