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3 years ago

Help please!!! I will give you the brainlyst if you helppp me

Mathematics

1 answer:

Anika [276]3 years ago

8 0

Answer:

the slope is 30 and it represents the total cost of the repair dont know 2 number 3 is for 10 hours he got paid 320 $ 4 ,270 $, 5,15.6

Step-by-step explanation:

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jim ordered a sports drink and three slices of pizza for $8.50. His friend ordered two sports drink and two slices of pizza for

inna [77]

Answer:

drink cost: $1.75
slice of pizza cost: $2.25

Step-by-step explanation:

Let d and p represent the costs of a drink and a pizza slice, respectively. The two orders have a value ...

d + 3p = 8.50

2d + 2p = 8.00

Subtracting the second equation from twice the first gives ...

2(d +3p) -(2d +2p) = 2(8.50) -(8.00)

4p = 9.00 . . . . . simplify

p = 2.25 . . . . . . divide by 4

Solving the first equation for d and putting in the value, we have

d = 8.50 -3p = 8.50 -3·2.25 = 8.50 -6.75

d = 1.75

The cost of a drink is $1.75; the cost of a pizza slice is $2.25.

4 0

2 years ago

PLEASE LEND ME A HAND! I NEED IT BADLY!!!

V125BC [204]

Answer:

The first one is A

The second one is B

3 0

2 years ago

Read 2 more answers

Need answer fast. Type the correct answer in each box. Use numerals instead of words. If necessary, use / for the fraction bar(s

7nadin3 [17]

Answer:

ahhhh reallly suck but im try it probably 7 /6 mabye i dont knowww.....

7 0

3 years ago

Show that the line integral is independent of path by finding a function f such that ?f = f. c 2xe?ydx (2y ? x2e?ydy, c is any p

Juli2301 [7.4K]

I'm reading this as

$\displaystyle\int_C2xe^{-y}\,\mathrm dx+(2y-x^2e^{-y})\,\mathrm dy$

with $\nabla f=(2xe^{-y},2y-x^2e^{-y})$ .

The value of the integral will be independent of the path if we can find a function $f(x,y)$ that satisfies the gradient equation above.

You have

$\begin{cases}\dfrac{\partial f}{\partial x}=2xe^{-y}\\\\\dfrac{\partial f}{\partial y}=2y-x^2e^{-y}\end{cases}$

Integrate $\dfrac{\partial f}{\partial x}$ with respect to $x$ . You get

$\displaystyle\int\dfrac{\partial f}{\partial x}\,\mathrm dx=\int2xe^{-y}\,\mathrm dx$
$f=x^2e^{-y}+g(y)$

Differentiate with respect to $y$ . You get

$\dfrac{\partial f}{\partial y}=\dfrac{\partial}{\partial y}[x^2e^{-y}+g(y)]$
$2y-x^2e^{-y}=-x^2e^{-y}+g'(y)$
$2y=g'(y)$

Integrate both sides with respect to $y$ to arrive at

$\displaystyle\int2y\,\mathrm dy=\int g'(y)\,\mathrm dy$
$y^2=g(y)+C$
$g(y)=y^2+C$

So you have

$f(x,y)=x^2e^{-y}+y^2+C$

The gradient is continuous for all $x,y$ , so the fundamental theorem of calculus applies, and so the value of the integral, regardless of the path taken, is

$\displaystyle\int_C2xe^{-y}\,\mathrm dx+(2y-x^2e^{-y})\,\mathrm dy=f(4,1)-f(1,0)=\frac9e$