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sergij07 [2.7K]

2 years ago

9

A donut shop made 61 donuts. They put frosting on 47 of the donuts. What is the ratio of the number of donuts without frosting t

o the total number of donuts?

2 answers:

iren2701 [21]2 years ago

7 0

Answer:

The answer is 14:61

Step-by-step explanation:

it can be written also as a fraction

kompoz [17]2 years ago

6 0

Answer:

14:61

Step-by-step explanation:

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At 6:00 p.m. the temperature was –5°F outside. By midnight the temperature had dropped 12 degrees. What was the temperature at m

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Richard has enrolled in a 401(k) savings plan. He intends to deposit $250 each month; his employer does not contribute to his ac

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Answer:

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Step-by-step explanation:

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7 0

3 years ago

he half-life for a link on a social network website is 2.6 hours. Write an exponential function T that gives the percentage of

pychu [463]

Answer:

% Remaining $= [1-(1/2)^{\frac{t}{2.6}}]x100$

And replacing the value t =5.5 hours we got:

% Remaining $= [1-(1/2)^{\frac{5.5}{2.6}}]x100 =76.922\%$

Step-by-step explanation:

Previous concepts

The half-life is defined "as the amount of time it takes a given quantity to decrease to half of its initial value. The term is most commonly used in relation to atoms undergoing radioactive decay, but can be used to describe other types of decay, whether exponential or not".

Solution to the problem

The half life model is given by the following expression:

$A(t) = A_o (1/2)^{\frac{t}{h}}$

Where A(t) represent the amount after t hours.

$A_o$ represent the initial amount

t the number of hours

h=2.6 hours the half life

And we want to estimate the % after 5.5 hours. On this case we can begin finding the amount after 5.5 hours like this:

$A(5.5) = A_o (1/2)^{\frac{5.5}{2.6}}$

Now in order to find the percentage relative to the initial amount w can use the definition of relative change like this:

% Remaining = $\frac{|A_o - A_o(1/2)^{\frac{5.5}{2.6}}|}{A_o} x100$

We can take common factor $A_o$ and we got:

% Remaining $= [1-(1/2)^{\frac{t}{2.6}}]x100$

And replacing the value t =5.5 hours we got:

% Remaining $= [1-(1/2)^{\frac{5.5}{2.6}}]x100 =76.922\%$

5 0

3 years ago