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3 years ago

Multiply 19×2/9 Type a whole number or a simplified fraction.

Mathematics

2 answers:

aliina [53]3 years ago

6 0

For this case we have the following expression:

$19 * \frac {2} {9} =$

Simplifying:

$\frac {19 * 2} {9} =\\\frac {38} {9}$

The expression cannot be simplified!

Thus, the most simplified form is:

$\frac {38} {9}$

Answer:

$19 * \frac {2} {9} = \frac {38} {9}$

Strike441 [17]3 years ago

3 0

Answer:38/9

Step-by-step explanation:

None can divide so it's just 19×2=38/9

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nikdorinn [45]

Answer:

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Step-by-step explanation:

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3 years ago

Help me for a brainllest. A theater holds 2,680 seats. The lower level has 100 less than 2 times as many seats as the upper leve

Kaylis [27]

Answer: 1430

Step-by-step explanation: x + y + z = 2680

x = 2z - 100

y = 3z + 80

x + y = 5z - 20

6z - 20 = 2680

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y = 1430

Solution:

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5 0

3 years ago

Read 2 more answers

Sum of $1000 was invested for 4 years, and the interest was compounded semiannually. If this sum amounted to $1389.08 in the giv

eduard

The answer is 8%

Compound interest formula is:
A = P(1 + r/n)ⁿˣ
A - the final amount
P - the initial amount
r - interest rate
n - number of compoundings per year
x - time period

We have:
A = <span>$1389.08
P = </span><span>$1000
r = ?
n = 2 (it is semiannual)
x = 4

</span>A = P(1 + r/n)ⁿˣ
1389.08 = 1000(1 + r/2)²*⁴
1389.08 = 1000(1 + r/2)⁸
(1 + r/2)⁸ = 1389.08/1000
(1 + r/2)⁸ = 1.389
$\sqrt[8]{(1 + \frac{r}{2} ) ^{8}} = \sqrt[8]{1.389} \\ 
1 + \frac{r}{2} =1.04 \\ 
 \frac{r}{2} = 1.04-1 \\ 
 \frac{r}{2} = 0.04 \\ 
r = 2*0.04 =0.08$
r = 0.08 = 8/100 = 8%

7 0

3 years ago

(4) use the method of lagrange multipliers to determine the maximum value of f(x, y) = x a y b (the a and b are two fixed positi

wlad13 [49]

Assuming $f(x,y)=x^ay^b$ . We have Lagrangian

$L(x,y,\lambda)=x^ay^b+\lambda(x+y-1)$

with partial derivatives (set to 0)[/tex]

$L_x=ax^{a-1}y^b+\lambda=0\implies ax^{a-1}y^b=-\lambda$
$L_y=bx^ay^{b-1}+\lambda=0\implies bx^ay^{b-1}=-\lambda$
$L_\lambda=x+y-1=0$

$\implies ax^{a-1}y^b=bx^ay^{b-1}\implies -bx+ay=0$
$x+y-1=0\implies x+y=1$

Solving this system of linear equations yields $x=\dfrac a{a+b}$ and $y=\dfrac b{a+b}$ as the sole critical point, which in turn gives a maximum value of $f\left(\dfrac a{a+b},\dfrac b{a+b}\right)=\dfrac{a^ab^b}{(a+b)^{a+b}}$ .

8 0

3 years ago

Using the digits 0 to 9 at most one time each, fill in the boxes to generate equivalent numerical expression.

riadik2000 [5.3K]

Answer:there are many ways you can use it. We used it this way. (8&1)(4&5)(9)(6&3)(7&2)

Step-by-step explanation:

The middle number using 9 like I did. You need all the other powers to add to 9 together. For example 8+1=9, 4+5=9,6+3=9 and 7+2=9

5 0

4 years ago