At the end of the year a library reported 32books lost or stolen and 24 books were sent out for repair if the Library originally had 1219 books how many were left on the shelves or in circulation

Answer:

Step-by-step explanation:

incomplete. no results listed below

Answer:

25

Step-by-step explanation:

The statement, "Julian's sister said he walked 1/5 mile" cannot be agreed because Julian totally walked [tex]1\frac{1}{5} \text{ or } \frac{6}{5}[/tex] miles.

Solution:  

Given that,

To find total distance walked by Julian we have to add the above stated values. That is, [tex]\frac{6}{10} +\frac{35}{100} +\frac{1}{4}[/tex]

Factors of 10 = [tex]5\times2[/tex]

Factors of 100 = [tex]5\times2\times5\times2[/tex]

Factors of 4 = [tex]2\times2[/tex]

Therefore, the least common factor of 10, 100 and 4 is 100. With like denominators we can operate on just the numerators,

[tex]\frac{6\times10}{10\times10} +\frac{35\times1}{100\times1} +\frac{1\times25}{4\times1}\rightarrow\frac{60+35+25}{100}\rightarrow\frac{120}{100}[/tex]

[tex]\Rightarrow\frac{120}{100}\rightarrow\frac{6}{5}[/tex]

Which can also be written as [tex]1\frac{1}{5}[/tex].

So, from the above calculation it can be said that Julian walked [tex]1\frac{1}{5} \text{ miles }[/tex].

Julian did not walk 1/5 mile. He actually walked 1.2 miles.

To determine whether Julian's sister's claim is accurate, we need to add up the distances Julian walked. He walked 6/10 mile to his friend's house, 35/100 mile to the store, and 1/4 mile back home. Using a common denominator of 100, we can add the fractions: 6/10 + 35/100 + 25/100 = 60/100 + 35/100 + 25/100 = 120/100 = 1.2 miles. Therefore, Julian walked 1.2 miles, not 1/5 mile as his sister claimed. So, I do not agree with his sister's statement.

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The net force on the rotor due to the unbalanced samples : 64.4 N

Centripetal force is a force acting on objects that move in a circle in the direction toward the center of the circle  

[tex]\large{\boxed{\bold{F= \frac{mv^2}{R}}}[/tex]

F = centripetal force , N

m = mass , Kg

v = linear velocity , m/s

r = radius , m

The speed that is in the direction of the circle is called linear velocity  

Can be formulated:  

[tex]\displaysyle v=2\pi.r.f[/tex]

r = circle radius  

f = rotation per second (RPS)  

The sample has a mass of 10 mg larger than the opposing sample. If the samples are 12 cm from the axis of the rotor and the ultracentrifuge spins at 70,000 rpm  

Known  

RPM = 70,000, convert to RPS = 70,000: 60 = 1166.6  

r = 12 cm = 0.12 m  

m = 10 mg = 10⁻⁵ kg  

then  

Linear velocity :

[tex]\displaystyle v=2\times 3.14\times 0.12\times 1166.6\\\\v=879.15\:m/s[/tex]

Centripetal force :

[tex]\displaystyle F=\frac{10^{-5}\times (879.15)^2}{0.12}\\\\F=\boxed{\bold{64.4\:N}}[/tex]

the average velocity

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resultant velocity

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velocity position

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Keywords: ultracentrifuge, samples, Centripetal force, linear velocity

The magnitude of the net force on the rotor due to the unbalanced samples is 64.4 Newton.

From the information given, the velocity will be calculated as:

= 2πrf.

where, r = radius = 0.12

f = rotation per second = 70000/60 = 1166.6

Velocity will be:

= 2 × 3.14 × 0.12 × 1166.6

= 879.15 m/s

Therefore, the centripetal force will be:

= [10^-5 × (879.15)²] ) 0.12

= 64.4N

In conclusion, the magnitude of the net force is 64.4 Newton.

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Answer: B. 50 and 60

Step-by-step explanation:

Given : There are 9 showings of a film about endangered species at the science museum.

The total number of people saw the film = 459

Also, The same number of people were at each showing.

Then, the number of people were at each showing = Total people divided by Total showings

= 459 ÷ 9 = 51

Also, 50< 51 < 60  [the quotient is between 50 and 60.]

i.e.  About 50 and 60 people were at each showing .

Hence, the correct answer is B. 50 and 60.

Answer:

The answer is SSS.

Step-by-step explanation:

It is proved that △FIJ ≅ △HGJ By Side side Side Congruence Property.

Thus the correct option is D.

Two triangles are said to be congruent if the length of the sides is equal, a measure of the angles are equal and they can be superimposed.

Given:

In △FIJ and △HGJ

Segment FI  ≅ segment GH

Segment FJ = segment HJ (by definition of midpoint)

Segment GJ= segment IJ (by definition of midpoint)

∴ By Side side Side Congruence Property

△FIJ ≅ △HGJ by SSS

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Answer:

[tex]\frac{60!}{22!22!16!}[/tex]

Step-by-step explanation:

As given, drug A is to be given to 22 mice, drug B is to be given to another 22 mice, and the remaining 16 mice are to be used as controls.

Required number of ways = Number of ways to select mice that gets drug A x the number of ways for mice that gets drug B x the number of ways the mice gets no drugs.

= [tex]\frac{60!}{22!38!} \times \frac{38!}{22!16!} \times1[/tex]

Solving this we get;

= [tex]\frac{60!}{22!22!16!}[/tex]

= 314,790,828,599,338,321,972,833,000

Answer:

  1.00 inches

Step-by-step explanation:

The distance from vertex to focus is "p" in the quadratic equation ...

  x^2 = 4py

In the given equation, p=1. Since units are inches, ...

the bulb should be placed 1.00 inches from the vertex.

Answer:

32 oz

Step-by-step explanation:

Answer:

[tex]y < - \times + 2[/tex]

and

[tex]y \geqslant 2x + 4[/tex]

Step-by-step explanation:

Dotted line means regular < and >

Solid line mean (< or equal to) and > (or equal to)

They're asking for an equation for both lines, which you can use the formula y = mx + b, but in this case you'll be using y < or y > since it's an inequality.

For the dotted line: Its dotted so you already know it's a regular sign (< and >). We have to find the slope of the dotted line, which is m. The formula for m = (y2 - y1) ÷ (x2 - x1), which means you choose two points that the dotted line intercepts with. (0, 2) and (2,0) are two points the line goes through. Now plug it into the slope formula. (0 - 2) ÷ (2 - 0) = -2/2 = -1

The line intercepts at 2 on the y-axis and the area below the dotted line is shaded. When it's shaded below, the sign is < therefore y < -1x + 2

For the solid line: Its solid so the sign in underlined indicating equal to or (</>). Do the exact same thing you did for the dotted line. Slope formula and where the line intercepts the y-axis. Let's do (-2,0) and (0,4), then (4 - 0) ÷ (0 - (-2)) = 4/2 = 2.

The line intercepts at 4 on the y-axis and the area above the solid line is shaded. When its shaded above, the sign is > therefore y > or equal to (underline it) 2x + 4

Answer:

[tex]\frac{3}{5}[/tex]

Step-by-step explanation:

Probability of choosing an odd number in the second turn is the sum of probabilities of choosing an odd number in second turn given that an odd number or an even number is picked in first turn.

Probability of getting an odd number in the first turn out of 1,2,3,4,5 is [tex]\frac{3}{5}[/tex]

Probability of getting an even number in the first turn out of 1,2,3,4,5 is [tex]\frac{2}{5}[/tex]

Probability of getting an odd number in second turn given that an odd number was picked in the first turn (remaining : 2 odd numbers out of 4) is [tex]\frac{1}{2}[/tex]

Probability of getting an odd number in second turn given that an even number was picked in the first turn (remaining : 3 odd numbers out of 4) is [tex]\frac{3}{4}[/tex]

Total probability is [tex]\frac{3}{5} \times \frac{1}{2}  +  \frac{2}{5} \times \frac{3}{4}  =  \frac{3}{5}[/tex]

The probability of choosing an odd digit in the second draw, considering all scenarios of the first draw, is 0.625.

The student's question pertains to probability in a sequential selection scenario. It involves two sequential selections of digits from a certain set, specifically looking at the situation where an odd digit is selected in the second draw.

To address this, we first acknowledge that there are 5 digits to choose from initially: 1, 2, 3, 4, 5. However, once a digit is chosen and removed, 4 digits remain in the set for the second round of choosing. Among the remaining 4 digits, either two or three of them will be odd, depending on the parity (evenness or oddness) of the first digit chosen.

If an even digit is chosen first, three odd digits (1,3,5) will be left, thus the probability of choosing an odd digit the second time is 3 out of 4, or 0.75. If an odd digit is chosen first, two odd digits will be left, and the probability of choosing an odd digit in the second draw is then 2 out of 4, or 0.5. Finally, we consider the total probability over all possible first draws, yielding (1/2)*0.75 + (1/2)*0.5 = 0.625.

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There is no Graph to go in response to this question

Final answer:

To find the dimensions of the poster with the smallest area, subtract the margins from the total dimensions of the poster. Set up an equation using the area of the printed material and find the dimensions that result in the smallest area. By substituting different values into the equation, the dimensions are approximately 30 cm by 56 cm.

Explanation:

To find the dimensions of the poster with the smallest area, we need to subtract the margins from the total dimensions of the poster and then find the dimensions that result in the smallest area. Let's assume the width of the poster is x cm and the height of the poster is y cm.

Using the information given, we can set up the following equations:

x - 2(6) = x - 12 cm (effective width)

y - 2(8) = y - 16 cm (effective height)

The area of the printed material is fixed at 390 square centimeters, so we have:

(x - 12) × (y - 16) = 390

To find the dimensions with the smallest area, we can find the derivative of the area equation with respect to either x or y, set it equal to zero, and solve for x or y. However, this is a complicated process. So, we can use a graphing calculator to find the minimum area. By substituting different values for x and y into the area equation, we can find the dimensions that result in the smallest area.

After substituting different values, we find that the dimensions of the poster with the smallest area are approximately 30 cm by 56 cm.

Answer:

  3/4

Step-by-step explanation:

It can be helpful to use a common denominator for comparison. That denominator can be 100, meaning we can make them all decimal fractions. Approximate (2 digit) values are good enough for the purpose.

  2/3 ≈ 0.67 . . . . left end of the range

  7/9 ≈ 0.78 . . . . right end of the range

  3/5 = 0.60

  6/9 ≈ 0.67 . . . . = 2/3, so is not greater than 2/3

  3/4 = 0.75

  6/7 ≈ 0.86

The only decimal value between 0.67 and 0.78 is 0.75, corresponding to the fraction 3/4.

  2/3 < 3/4 < 7/9

Answer:

No

Step-by-step explanation:

Just because the derivative is 0 at a point doesn't necessarily mean it is a relative minimum or maximum.  You must be able to evaluate the derivative on both sides of the point to determine if it changes signs.  Since endpoints have only one side, they cannot be relative maximums or minimums.

Answer:

x=7 and y=-1

Step-by-step explanation:

X+Y=6 OR X=6-Y  ...(1)

X-Y=8    ...(2)

substitue X=6-Y in (2)

(6-Y)-Y=8

6-2Y=8

-2Y=8-6

-2Y=2

Y=2/-2\Y=-1 ANS.

for x, substitute Y=-1 in (1) above

X-(-1)=8

X=8-1

X=7 ANS.

Step-by-step explanation:

Let the speed of plane be p and speed of wind be w.

Flying against the wind, an airplane travels 5760 kilometers in 6 hours.

Here

            Speed = (p-w) kmph

            Time = 6 hours

            Distance = 5760 kmph

            Distance = Speed x Time

            5760 = (p-w) x 6

               p-w = 960 -----eqn 1  

Flying with the wind, the same plane travels 6300 kilometers in 5 hours.

Here

            Speed = (p+w) kmph

            Time = 5 hours

            Distance = 6300 kmph

            Distance = Speed x Time

            6300 = (p+w) x 5

               p+w = 1260 -----eqn 2    

eqn 1 + eqn 2

                p-w + p +w =  960 + 1260

                  2p = 2220

                    p = 1110 kmph

Substituting in eqn 2

                1110 + w = 1260

                         w = 150 kmph

Speed of plane = 1110 kmph

Speed of wind = 150 kmph

Answer: 1.15 pounds

Step-by-step explanation:

For uniform distribution.

The standard deviation is  :

[tex]\sigma=\sqrt{\dfrac{(b-a)^2}{12}}[/tex]

, where a = Lower limit of interval [a,b].

b = Upper limit of interval [a,b].

Given : The changes in water weight are uniformly distributed between minus two and plus two pounds in a day.

i.e. Interval =  [-2 , +2]

Here , a= -2 and b= 2

Then, the standard deviation is  :

[tex]\sigma=\sqrt{\dfrac{(2-(-2))^2}{12}}[/tex]

[tex]\sigma=\sqrt{\dfrac{(2+2)^2}{12}}[/tex]

[tex]\sigma=\sqrt{\dfrac{16}{12}}=\sqrt{1.3333}=1.15468610453\approx1.15[/tex]

Hence, the standard deviation of your weight over a day =  1.15 pounds

The standard deviation of the uniform distribution representing an adult's daily change in weight due to water is around 1.155 pounds.

The question is about the standard deviation of the adult weight changes due to gain or loss in water content which is uniformly distributed between minus two and plus two pounds in a day.

To calculate the standard deviation for this uniform distribution, you need to follow these steps:

So, the standard deviation of your weight changes over a day due to the water flux is approximately 1.155 pounds.

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Answer:

The probability of a person having a driving accident while intoxicated is 0.07

Step-by-step explanation:

Hi, well, let´s put this on a formula, I think it is the best way to explain it.

[tex]P(A+I)=P(A)+P(I)-P(AorI)[/tex]

Where:

P(A+I) = Probability of having a driving accident while intoxicated.

P(A) = Probability of a person of having an accident.

P(I) = Probablity person being intoxicated.

P(A or I) = Probability of a person for being intoxicated or having an accident.

Therefore, things should look like this:

[tex]P(A+I)=0.12+0.32-0.37=0.07[/tex]

So, the  probability of a person having a driving accident while intoxicated is 0.07.

Best of luck.

The probability of a person having a driving accident while intoxicated is 0.375 or 37.5%.

To find the probability of a person having a driving accident while intoxicated, we can use the formula for conditional probability: P(A|B) = P(A and B) / P(B). In this case, A represents the event of having a driving accident and B represents the event of driving while intoxicated. The probability of driving while intoxicated is given as 0.32, and the probability of having a driving accident is given as 0.12. So, P(A and B) = 0.12 and P(B) = 0.32. Plugging these values into the formula, we get P(A|B) = 0.12 / 0.32 = 0.375. Therefore, the probability of a person having a driving accident while intoxicated is 0.375 or 37.5%.

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(a) 1000

(b) 11100

(c) 11095.

Step-by-step explanation:  

(a) If A1 is a subset of A2 and A2 is a subset of A3, then all the elements of A1 are in A2 and all the elements of A2 are in A3.

Then, n(A1 n A2) = 100, n(A2 n A3) = 1000 , n(A1 n A3) = 100 and n(A1 n A2 n A3) = 100.

So,  we get

[tex]n(A1\cup A2\cup A3)\\\\=n(A1)+n(A2)+n(A3)-n(A1\cap A2)-n(A2\cap A3)-n(A1\cap A3)+n(A1\cap A2\cap A3)\\\\=100+1000+1000-100-1000-100+100\\\\=1000.[/tex]

(b) If the sets are pairwise disjoint, then

n(A1 n A2) = n(A2 n A3) = n(A1 n A3) = n(A1 n A2 n A3) = 0.

So, we get

[tex]n(A1\cup A2\cup A3)\\\\=n(A1)+n(A2)+n(A3)\\\\=100+1000+10000\\\\=11100.[/tex]

(c) If  there are two elements common to each pair of sets and one element in all three sets, then

n(A1 n A2) = 2,  n(A2 n A3) = 2, n(A1 n A3) = 2 and n(A1 n A2 n A3) = 1.

So, we get

[tex]n(A1\cup A2\cup A3)\\\\=n(A1)+n(A2)+n(A3)-n(A1\cap A2)-n(A2\cap A3)-n(A1\cap A3)-n(A1\cap A2\cap A3)\\\\=100+1000+1000-2-2-2+1\\\\=11100-5\\\\=11095.[/tex]

Final answer:

The number of elements in the union of sets A1, A2, and A3 varies depending on their relationships. For subsets (a), the count is 10,000; for disjoint sets (b), it is 11,100; and when each pair has common elements plus one common to all (c), the count is 11,095.

Explanation:

Finding the Number of Elements in the Union of Sets

To find the number of elements in the union of sets A1, A2, and A3, we need to consider the given conditions.

a) A1 ⊆ A2 and A2 ⊆ A3

Since A1 is a subset of A2, and A2 is a subset of A3, all elements of A1 and A2 are included in A3. Therefore, the

number of elements in A1 ∪ A2 ∪ A3 equals the number of elements in A3, which is 10,000.

b) The Sets Are Pairwise Disjoint

If the sets are pairwise disjoint, this means they share no elements in common. We simply add the number of elements in each set to find the union's total count. This gives us 100 + 1000 + 10,000 = 11,100 elements in the union.

c) Two Elements Common to Each Pair and One in All Three

With two elements common to each pair of sets and one element in all three, we need to subtract the common elements to avoid double-counting. So, A1 ∪ A2 ∪ A3 will have 100 + 1000 + 10,000 - 2 - 2 - 2 + 1 (since 1 element is counted three times, we add it back once) which equals 11,095 elements.

Answer:

6 miles shorter

Step-by-step explanation:

Right now, Jimmy walked 21 miles. If he had gone diagonally, he would've walked only 15 miles. This is 6 miles shorter than before.

1.

Chance of finding a bug = 0.35

Chance of not finding a bug = 1 - 0.35 = 0.65

Probability of finding a bug in the first 3 programs =

Probability of not finding a bug in 2 out of the 3 and finding a bug in 1.:

0.65^2 * 0.35 = 0.147 = 0.15

Answer is A.

2.

Probability of heads = 0.50

Probability of tails = 0.50

Probability of heads on the fourth attempt = tails x tails x tails x heads = 0.5 x 0.5 x 0.5 x 0.5 = 0.0625

The answer is B.

Answer:c

Step-by-step explanation:

Profit maximization happens with marginal revenue is equal to marginal cost, so if Grant's assumption was right before selling the extra unit, when he actually sells the extra unit, this will increase his revenue

That's why the answer is c

Marginal revenue will exceed marginal cost

Answer:

600ft x 1200ft

Step-by-step explanation:

Use derivative optimization to find the maximum area.

I'll call the two same sides "a", and the one different side "b"

The maximum perimeter (including 3 sides) is 2400 ft. so,

2400 = 2a + b

The area is length × width. so,

A = ab

Using substitution to combine the equations,

A = a × (2400 - 2a)

A = -2a² + 2400a

Find the maximum of A by finding the zeros of its derivative.

dA = -4a +2400

0 = -4a + 2400

The maximum occurs at a = 600

Substitute in the perimeter equation to find b.

2400 = 2(600) + b

b = 1200

600 x 1200

Answer:

Option C is right

C. They are independent because, based on the probability, the first ace was replaced before drawing the second ace.

Step-by-step explanation:

Given that the  probability of drawing two aces from a standard deck is 0.0059

If first card is drawn and replaced then this probability would change.  By making draws with replacement we make each event independent of the other

Drawing ace in I draw has probability equal to 4/52, when we replace the I card again drawing age has probability equal to same 4/52

So if the two draws are defined as event A and event B,  the events are  independent

C. They are independent because, based on the probability, the first ace was replaced before drawing the second ace.

Answer:

26 million

Step-by-step explanation:

8200000 / 0.32 = 25625000

25625000 rounded to nearest million = 26 million

The total number of college students is 26 million.

Given that, in a recent year, 32% of all college students were enrolled part-time and 8.2 million college students were enrolled part-time that year.

A mathematical equation is a formula that uses the equals sign to represent the equality of two expressions.

Let the total number of college students be x.

Now, 32% of x=8.2 million

⇒ 0.32 x=8200000

⇒ x = 8200000/3.2

⇒ x = 2562500

2562500 rounded to nearest million = 26 million

Therefore, the total number of college students is 26 million.

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Answer:

The probability that only 1 letter will be put into the envelope with its correct address is [tex]\frac{1}{3}[/tex]

Step-by-step explanation:

Given:

Number of Letters=4

Number of addresses= 4

To Find:

The probability that only 1 letter will be put into the envelope with its correct address=?

Solution:

Let us assume first letter goes in correct envelope and others go in wrong envelopes, then

=> Probability putting the first letter in correct envelope =[tex]\frac{1}{4}[/tex]

=>  Probability putting the second letter in correct envelope =[tex]\frac{2}{3}[/tex]

=>  Probability putting the third letter in correct envelope= [tex]\frac{1}{2}[/tex]

=> Probability putting the fourth letter in correct envelope = 1;  

( only 1 wrong addressed envelope is left);

This event can occur with other 3 envelopes too.

Hence total prob. = [tex]4\times(\frac{1}{4}\times\frac{2}{3}\times\frac{1}{2}\times1)[/tex]

=> [tex]\frac{1}{3}[/tex]

Answer:

No, yes, yes

(-28,-11) and (8.7)

[tex][tex][\frac{-4}{3} ,\infty)[/tex]}[/tex]

Step-by-step explanation:

Given that a line in two dimension is parametrized by

[tex]x=2+6t \\y = 4+3t[/tex]

a) If t is non negative, then (-28,-11) cannot lie on that part

(-28,-11) No because t =-5

(8,7) yes because t =1

(26,16) yes because t = 4

b) when t lies between -2 and 1

we have left end point as

[tex]x=2+6(-2) = -10\\y = 4+3(-2) = -2\\[/tex]

(-10,-2) is left end point

Right end point is when t =1 i.e.

(8,7)

c) when the points should be above x axis, y should be non negative

i.e. [tex]y=4+3t\geq 0\\t\geq [/tex]

So t should lie in the interval

[tex][\frac{-4}{3} ,\infty)[/tex]}

To determine the number of sellable apples, we subtract the number of apples with defects from the total, but add back the ones counted twice due to having multiple defects. The calculation reveals that 75 out of 100 apples can be sold.

To calculate the number of apples that can be sold from the bushel, we need to consider those without worms or bruises. We have 20 apples with worms and 15 with bruises. However, since there are 10 apples that have both worms and bruises, these are counted twice in our total of defective apples.

First, we'll subtract the number of apples with worms (20) and those with bruises (15) from the total number of apples (100), but then we need to add back the ones we subtracted twice, those with both worms and bruises (10). Here's the calculation:

Total apples = 100

Apples with worms = 20

Apples with bruises = 15

Apples with both worms and bruises = 10

Apples that can be sold = Total apples - (Apples with worms + Apples with bruises - Apples with both worms and bruises)

Apples that can be sold = 100 - (20 + 15 - 10) = 100 - 25 = 75 apples can be sold.

75 of the 100 apples can be sold.

To find out how many apples can be sold, we need to determine the number of apples that are neither bruised nor have worms.

Given:

- Total number of apples = 100

- Number of apples with worms = 20

- Number of apples with bruises = 15

- Number of bruised apples with worms = 10

First, let's find the number of apples that have both bruises and worms. We are given that there are 10 bruised apples that have worms, so these apples are counted in both the bruised and worms categories. Therefore, we need to subtract these from the total number of bruised apples to avoid double-counting:

[tex]\[ \text{Number of apples with both bruises and worms} = 10 \][/tex]

Next, let's find the number of apples that have either bruises or worms. This can be done by adding the number of apples with bruises and the number of apples with worms and then subtracting the number of apples with both bruises and worms:

[tex]\[ \text{Number of apples with either bruises or worms} = 15 + 20 - 10 = 25 \][/tex]

Now, to find the number of apples that can be sold (i.e., the number of apples that are neither bruised nor have worms), we subtract the number of apples with either bruises or worms from the total number of apples:

[tex]\[ \text{Number of apples that can be sold} = 100 - 25 = 75 \][/tex]

So, 75 of the 100 apples can be sold.

Answer:

  1188 in²

Step-by-step explanation:

The area of a parallelogram is the product of its base length and height.

  A = bh = (36 in)(33 in) = 1188 in²