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2 years ago

-4/3 divided by 12/5

Mathematics

2 answers:

Ksivusya [100]2 years ago

5 0

Answer:

-5/9

Step-by-step explanation:

−4/5 divided by 12 /5

=-20/36

simplify

=-5/9

Rudik [331]2 years ago

5 0

Answer: -5/9

Step-by-step explanation:

-4/3 ÷ 12/5

= -4/3 × 5/12

Multiply the numerators and the denominators

= -4 × 5 = 20

3 x 12 = 36

= -20/36

Divide by a common value of 4

= -5/9

I hope this is clear, please mark as brainliest answer

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Consider the region, R, bounded above by f(x)=x2−6x+9 and g(x)=−3x+27 and bounded below by the x-axis over the interval [3,9]. F

Salsk061 [2.6K]

Answer:

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Step-by-step explanation:

The region R contains every point of the plane with coordinate x between 3 and 9, and with coordinate y positive such that y < f(x) and y < g(x).

We can note that both f and g are positive on [3,9] because g is a decreasing linear function and g(9) = 0, thus g is positive in every other point of the interval, and f(x) = (x-3)^2 is always positive excpept when x = 3, where it reaches the value 0.

The interception of the graphs takes place for a value x such that f(x) = g(x).

We compute x^2-6x+9 = -3x + 27, thus x^2-6x+9-(-3x + 27) = x^2-3x -18 = 0.

The roots of that quadratic function are

$r_1, r_2 = \frac{3 ^+_- \sqrt { 9 +72}}{2} = \frac{3^+_-9}{2}$ , thus r1 = 6, r2 = -3. We dont care about -3 because it is outside the interval, but we know that f and g graphs intersects on x = 6. Thus, we obtain, due to Bolzano Theorem:

On the interval [3,6), the function f in smaller because it takes the value 0 on x=3, while g is always positive.
On the interval (6,9]. the function g is smaller because it takes the value 0 on x=9, while f is always positive

Hence, the upper bound is f on the interval [3,6) and g on the interval (6,9]. While the lower bound is the 0 function.

We need to calculate the following integral, using Barrow's rule

$\int\limits^6_3 {x^2-6x+9} \, dx + \int\limits^9_6 {-3x+27} \, dx = (\frac{x^3}{3} - 3x^2 + 9x) |^6_3 + (\frac{-3x^2}{2} + 27x)|^9_6 = \\ (18 - 9) + (121.5-108) = 22.5$

As a result, the area of the region R is 22.5

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2 years ago