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1 year ago

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The height of a grain of a cylindrical silo is is increasing at a constant rate of 4 feet per minute At what rate is the volume

of grain in the cylinder if the radius of the silo is 10 feet?

1 answer:

Dafna11 [192]1 year ago

7 0

The answer is 2 min and 30 sec

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Blanche bought a 5-year cd for $7100 with an apr of 2.8%, compounded quarterly, but she wants to take all her money out 9 months

katrin2010 [14]

The formula for getting the accumulated amount(compounded) is;
A =P(1+r%)∧n
Where A = Acumulated amount
P = principle (deposit)
r = interest rate and
n = period
Since the interst is compounded quartly,
period = (5×4)-3 = 17

A = 7100(1+2.8/100)∧17
= 7100×1.028∧17
= 11,353.80

The money she will end up earning in interest on the cd = $11,353.80

4 0

2 years ago

PLEASE HURRY WILL GIVE BRAINLIEST! Which phrase describes the algebraic expression Three-fourths x + 2? A. three-fourths of a nu

Jlenok [28]

Answer: A

Step-by-step explanation:

3/4x+2

3/4+2

7 0

2 years ago

Read 2 more answers

Compute the integral (a) int sin (pi x) dx by letting u = pi x. (b) int e^(x/2) dx by letting u = x/2. Show that you got the cor

Maslowich

Answer:

(a) $\int sin(\pi x) dx$ $=-\frac {cos \pi x}{\pi}+c$

(b) $\int e^\frac{x}{2} dx$ $=2e^\frac{x}{2}+c$

Step-by-step explanation:

(a)

$\int sin(\pi x) dx$

Let u = π x

differentiating with respect to x

du = π dx

$\Rightarrow dx=\frac{du}{\pi}$

Putting the value of x and dx

$=\int sin u \frac{du}{\pi}$

$=\frac{-cos u}{\pi}+c$ [ c is an arbitrary constant]

Now putting the value of u

$=-\frac {cos \pi x}{\pi}+c$

(b)

$\int e^\frac{x}{2} dx$

Let $u=\frac{x}{2}$

differentiating with respect to x

$du= \frac{1}{2} dx$

2du = dx

Putting the value of x and dx

= $\int e^u.2.du$

= $2e^u +c$

Now putting the value of u

$=2e^\frac{x}{2}+c$ [ c is an arbitrary constant]

3 0

1 year ago

A collector’s item is purchased for $150 and its value increases by 3% each year. Which graph can be used to determine approxima

Tju [1.3M]

The answer is b.

A is in the negatives, and there are no negative years.

B works ; it starts at 150, is positive, and slowly reaches 300

C is exponential and goes to fast.

D starts at 0 not 150

So the answer is b.

Hope this helps!

8 0

2 years ago

Read 2 more answers

PLEASE HELP I HAVE NO IDEA

Agata [3.3K]

Part 1:

The table showing the decreasing debt is shown as follows:

$\begin{tabular}
{|c|c|c|c|}
Starting Balance&Interest Accrued&Payment&Closing Balance\\[1ex]
\$1,853.42&\$22.39&\$400&\$1,475.81\\\$1,475.81&\$17.83&\$400&\$1,093.64\\\$1,093.64&\$13.21&\$200&\$906.85\\\$906.85&\$10.96&\$200&\$717.81\\\$717.81&\$8.67&\$200&\$526.48\\\$526.48&\$6.36&\$200&\$332.84\\\$332.84&\$4.02&\$200&\$136.86\\\$136.86&\$1.65&\$138.51&-
\end{tabular}$

The column for interest accrued is obtained by the folmular

$I=P(1+0.155)^{\frac{1}{12}}$

where P is the month's starting balance.

Part 2:

From the table, the last payment is $138.51

Part 3:

The total amount paid by the time the credit card is payed of is the summation of the "payment" column of the table.

Thus, the total amount is given by:

$Payment\ total=2(400)+5(200)+138.51=\$1,938.51$

Part 4:

The debt ratio is given by

$Debt\ ratio= \frac{debt}{limit} = \frac{1,853.42}{3,000} \approx0.62$

4 0

1 year ago

Read 2 more answers