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human | Compute $\dbinom{7}{4}$. |
gpt | $\dbinom{7}{4} = \dfrac{7!}{4!3!}=\dfrac{7\times 6\times 5\times 4}{4\times 3\times 2\times 1}=\boxed{35}.$ |
human | Determine the number of ways to arrange the letters of the word TOOT. |
gpt | First we count the arrangements if all the letters are unique, which is $4!$. Then since the T's and the O's are not unique, we divide by $2!$ twice for the arrangements of T's and the arrangement of O's, for an answer of $\dfrac{4!}{2! \times 2!} = \boxed{6}$. |
human | A play has two different male roles, two different female roles and two different roles that can be either gender. Only a man can be assigned to a male role, and only a woman can be assigned to a female role. If five men and six women audition, in how many ways can the six roles be assigned? |
gpt | We start with the most restrictive conditions: the roles that are not open to both men and women. First, we will fill the two male roles. There are 5 men, so there are $5 \cdot 4= 20$ ways to assign 2 of the 5 men to the distinct male roles. Doing the same for the female roles, there are $6 \cdot 5 = 30$ ways. Finally... |
human | There are five unmarked envelopes on a table, each with a letter for a different person. If the mail is randomly distributed to these five people, with each person getting one letter, what is the probability that exactly four people get the right letter? |
gpt | If 4 people get the right letter, then there is only one letter left, and only one person left. So, the last person will get the right letter, too. Therefore, it is impossible for exactly four people to get the right letter. So, the probability is $\boxed{0}$. |
human | A palindrome is a number that reads the same forwards and backwards, such as 3003. How many positive four-digit integers are palindromes? |
gpt | Constructing palindromes requires that we choose the thousands digit (which defines the units digit) and the hundreds digit (which defines the tens digit). Since there are 9 choices for the thousands digit, and 10 choices for the hundreds digit, creating $9 \cdot 10 = \boxed{90}$ palindromes. |
human | In the row of Pascal's triangle that starts with 1 and then 12, what is the fourth number? |
gpt | The row that starts 1, 12 is the row $\binom{12}{0}, \binom{12}{1}, \binom{12}{2},\binom{12}{3}$, so the fourth number in this row is $\binom{12}{3} = \frac{12\cdot 11\cdot 10}{3\cdot 2 \cdot 1} = \boxed{220}$. |
human | The product of the digits of 3214 is 24. How many distinct four-digit positive integers are such that the product of their digits equals 12? |
gpt | We first have to figure out the different groups of 4 one-digit numbers whose product is 12. We obviously can't use 12 as one of the numbers, nor can we use 9, 8, or 7 (none divides 12). We can use 6, in which case one of the other numbers is 2 and the other two are 1s. So, we can have the number 6211, or any number... |
human | Michael has never taken a foreign language class, but is doing a story on them for the school newspaper. The school offers French and Spanish. Michael has a list of all 25 kids in the school enrolled in at least one foreign language class. He also knows that 18 kids are in the French class and 21 kids are in the Span... |
gpt | There are a total of $\dbinom{25}{2}=300$ ways Michael could choose the 2 kids from his list. The only way Michael will not have enough from his interviews to write about both classes will be if he interviews two kids enrolled only in French or interviews two kids enrolled only in Spanish. In order to figure out the ... |
human | Our club has 20 members, 10 boys and 10 girls. In how many ways can we choose a president and a vice-president if they must be of the same gender? Assume no one can hold both offices. |
gpt | The president can be any one of the 20 members, and the vice-president can be any one of the 9 remaining members of the same sex. The answer is $20\times 9=\boxed{180}$. |
human | How many integers are between $(10.2)^3$ and $(10.3)^3$? |
gpt | We want to count the integers from the first one greater than $10.2^3$ to the last one less than $10.3^3$. We note that $(a+b)^3=a^3+3a^2b+3ab^2+b^3$ for any $a,b$. Using this expansion for $(10+.2)^3$ and $(10+.3)^3$, we have: \begin{align*}
(10+.2)^3&=10^3+300\cdot .2+30\cdot .04+.008\\
(10+.3)^3&=10^3+300\cdot .3+30... |
human | We flip a fair coin 10 times. What is the probability that we get heads in at least 8 of the 10 flips? |
gpt | There are $2^{10} = 1024$ possible outcomes of the 10 coin flips. The number of ways to get 8, 9, or 10 heads is $\binom{10}{8}+\binom{10}{9}+\binom{10}{10}=45+10+1=56$. So the probability is $\dfrac{56}{1024}=\boxed{\dfrac{7}{128}}$. |
human | The digits $1,2,3,4$ and $5$ can be arranged to form many different $5$-digit positive integers with five distinct digits. In how many such integers is the digit $1$ to the left of the digit $2$? (The digits 1 and 2 do not have to be next to each other.) |
gpt | For the first digit, we have 5 choices, then we have 4 choices left for the second digit, then 3 choices for the third digit, etc. So there are $5!=120$ arrangements of the digits. Notice that for each arrangement with 1 to the left of 2, we can reverse the arrangement so that 2 is to the left of 1. For instance, flipp... |
human | If the six digits 1, 2, 3, 5, 5 and 8 are randomly arranged into a six-digit positive integer, what is the probability that the integer is divisible by 15? Express your answer as a common fraction. |
gpt | By the fact that the sum of the digits is a multiple of 3, any arrangement of the digits will be a multiple of 3. To be a multiple of 5, the number must end in one of the fives, which will happen with probability $\frac{2}{6} = \frac{1}{3}$. Since any number that is a multiple of 3 and a multiple of 5 is a multiple of ... |
human | Given that $8!=40320$, what is the value of $8!\div3!$? |
gpt | Since $3!=6$, we need to divide 40320 by 6, which is $40320/6=\frac{36000+4200+120}{6}=6000+700+20=\boxed{6720}$. |
human | Each of five, standard, six-sided dice is rolled once. What is the probability that there is at least one pair but not a three-of-a-kind (that is, there are two dice showing the same value, but no three dice show the same value)? |
gpt | There are a total of $6^5=7776$ possible sets of dice rolls. To get a pair without a three-of-a-kind, we can either have one pair and the other three dice all showing different numbers, or we have two pairs and the fifth die showing something different.
In the first case, there are $6$ ways to pick which number makes ... |
human | No two students in Mrs. Vale's 26-student mathematics class have the same two initials. Each student's first name and last name begin with the same letter. If the letter ``Y'' is considered a vowel, what is the probability of randomly picking a student whose initials are vowels? Express your answer as a common fraction... |
gpt | The students' initials are AA, BB, CC, $\cdots$, ZZ, representing all 26 letters. The vowels are A, E, I, O, U, and Y, which are 6 letters out of the possible 26. So the probability of picking a student whose initials are vowels is $\frac{6}{26}=\boxed{\frac{3}{13}}$. |
human | Bertha has 6 daughters and no sons. Some of her daughters have 6 daughters, and the rest have none. Bertha has a total of 30 daughters and granddaughters, and no great-granddaughters. How many of Bertha's daughters and granddaughters have no daughters? |
gpt | Bertha has $30 - 6 = 24$ granddaughters, none of whom have any daughters. The granddaughters are the children of $24/6 = 4$ of Bertha's daughters, so the number of women having no daughters is $30 - 4 = \boxed{26}$. |
human | How many positive multiples of $7$ that are less than $1000$ end with the digit $3$? |
gpt | Listing the first 10 multiples of 7, which are 7, 14, 21, 28, 35, 42, 49, 56, 63, 70, we see that the only positive multiples of 7 that end in 3 are those that are the product of 7 and a number that ends in 9. Therefore, the positive multiples of 7 that are less than 1000 and end with the digit 3 are $7\cdot 9 = 63$, ... |
human | In how many ways can I choose 3 captains from a team of 11 people? |
gpt | Since the order that we choose the captains in doesn't matter, we can choose 3 of them out of 11 players in $\binom{11}{3}=\boxed{165}$ ways. |
human | Paco uses a spinner to select a number from 1 through 5, each with equal probability. Manu uses a different spinner to select a number from 1 through 10, each with equal probability. What is the probability that the product of Manu's number and Paco's number is less than 30? Express your answer as a common fraction. |
gpt | A little casework seems like the simplest approach. First, if Paco spins a 1 or 2, it does not matter what Manu spins; the product is less than 30 regardless. If Paco spins a 3, the product will be 30 or greater only if Manu spins a 10, and both of these will be true with probability $\frac{1}{5} \cdot \frac{1}{10} = \... |
human | How many positive three-digit integers less than 500 have at least two digits that are the same? |
gpt | Case 1: The last two digits of our integer are equal. There are 10 possibilities for these last two digits and 4 choices for the hundred's digit, of a total of 40 possibilities. (Note that this case includes 111, 222, 333, and 444.)
Case 2: The first two digits are equal and the third is different. This occurs in $... |
human | A point $P$ is chosen at random in the interior of equilateral triangle $ABC$. What is the probability that $\triangle ABP$ has a greater area than each of $\triangle ACP$ and $\triangle BCP$? |
gpt | Since the three triangles $ABP$, $ACP$, and $BCP$ have equal bases, their areas are proportional to the lengths of their altitudes.
Let $O$ be the centroid of $\triangle ABC$, and draw medians $\overline{AOE}$ and $\overline{BOD}$. Any point above $\overline{BOD}$ will be farther from $\overline{AB}$ than from $\overl... |
human | If two distinct numbers are selected at random from the first seven prime numbers, what is the probability that their sum is an even number? Express your answer as a common fraction. |
gpt | The only way for the sum to not be even is if one of the primes chosen is 2. There are six pairs where one of the primes is 2, and there are $\binom{7}{2}=21$ total possible pairs, so the probability that the sum is NOT even is $\frac{6}{21}=\frac{2}{7}$. Therefore, the probability that the sum IS even is $1-\frac{2}{7... |
human | Lark has forgotten her locker combination. It is a sequence of three numbers, each in the range from 1 to 30, inclusive. She knows that the first number is odd, the second number is even, and the third number is a multiple of 3. How many combinations could possibly be Lark's? |
gpt | There are 15 odd numbers, 15 even numbers, and 10 multiples of 3, making for $15^2\cdot 10 = 225 \cdot 10 = \boxed{2250}$ combinations total. |
human | Three friends have a total of 6 identical pencils, and each one has at least one pencil. In how many ways can this happen? |
gpt | The largest number of pencils that any friend can have is four. There are 3 ways that this can happen: $(4,1,1)$, $(1,4,1)$ and $(1,1,4)$. There are 6 ways one person can have 3 pencils: $(3,2,1)$, $(3,1,2)$, $(2,3,1)$, $(2,1,3)$, $(1,2,3)$ and $(1,3,2)$. There is only one way all three can have two pencils each: $(2,2... |
human | If Anna flips 8 coins, what is the probability that she gets more heads than tails? |
gpt | We could solve this problem using casework, but using a little bit of symmetry and complementary probability gives us a more elegant solution. Since each coin flips heads and tails with equal probability, by the principle of symmetry the probability of getting more heads than tails is the equal to the probability of ge... |
human | Ben rolls four fair 20-sided dice, and each of the dice has faces numbered from 1 to 20. What is the probability that exactly two of the dice show an even number? |
gpt | There is a $\frac{1}{2}$ probability that a 20-sided die will show an even number and a $\frac{1}{2}$ probability that it will show an odd number. We can choose which dice will show the even numbers in $\binom{4}{2}=6$ ways. For each way, there is a $\left( \frac{1}{2} \right) ^4=\frac{1}{16}$ probability that the chos... |
human | How many three-digit whole numbers have no 7's and no 9's as digits? |
gpt | In order to be a three-digit number, the first digit cannot be 0, so there are normally 9 choices for the hundreds digit. But it also cannot be 7 or 9, so there are actually only 7 choices for the hundreds digit, and then 8 digits each for the units and tens digits. So, there are $7 \cdot 8 \cdot 8 = \boxed{448}$ such ... |
human | What is the probability that when we roll four fair 6-sided dice, they won't all show the same number? |
gpt | Counting the number of outcomes in which four 6-sided dice don't all show the same number would require some pretty delicate casework. However, counting all the outcomes in which four 6-sided dice do all show the same number is very easy: there are only 6 ways this can happen, namely all ones, all twos, all threes, al... |
human | The set $S = \{1, 2, 3, \ldots , 49, 50\}$ contains the first $50$ positive integers. After the multiples of 2 and the multiples of 3 are removed, how many integers remain in the set $S$? |
gpt | The set $S$ contains $25$ multiples of 2 (that is, even numbers). When these are removed, the set $S$ is left with only the odd integers from 1 to 49. At this point, there are $50-25=25$ integers in $S$. We still need to remove the multiples of 3 from $S$.
Since $S$ only contains odd integers after the multiples of 2... |
human | Two distinct positive integers from 1 to 50 inclusive are chosen. Let the sum of the integers equal $S$ and the product equal $P$. What is the probability that $P+S$ is one less than a multiple of 5? |
gpt | There are a total of $\binom{50}{2}=1225$ ways to choose the two positive integers. Call these integers $a$ and $b$. The problem asks what the probability is that: $$ab+a+b=n-1$$where $n$ is a multiple of 5. We can add one to each side of this equation and factor: $$ab+a+b+1=(a+1)(b+1)=n$$Now, we need to count the n... |
human | Marius is entering a wildlife photo contest, and wishes to arrange his seven snow leopards of different heights in a row. If the shortest two leopards have inferiority complexes and demand to be placed at the ends of the row, how many ways can he line up the leopards? |
gpt | There are two ways to arrange the shortest two leopards. For the five remaining leopards, there are $5!$ ways to arrange them.
Therefore, the answer is $2\times5!=\boxed{240\text{ ways.}}$ |
human | A very bizarre weighted coin comes up heads with probability $\frac12$, tails with probability $\frac13$, and rests on its edge with probability $\frac16$. If it comes up heads, I win 1 dollar. If it comes up tails, I win 3 dollars. But if it lands on its edge, I lose 5 dollars. What is the expected winnings from f... |
gpt | The expected value is $E = \left(\dfrac{1}{2}\times\$1\right) + \left(\dfrac{1}{3}\times\$3\right) + \left(\dfrac{1}{6}\times(-\$5)\right) = \$\dfrac{4}{6} =\boxed{\$\dfrac23 \approx \$0.67}$. |
human | Alice and Bob each arrive at a party at a random time between 1:00 and 2:00. If Alice arrives after Bob, what is the probability that Bob arrived before 1:30? |
gpt | We let the $x$-axis represent the time Bob arrives, and the $y$-axis represent the time Alice arrives. Then we shade in the region where Alice arrives after Bob, and mark off the part of that area where Bob arrives before 1:30.
[asy]
fill((0,0)--(60,60)--(0,60)--cycle, gray(.7));
draw((30,0)--(30,60));
label("1:30", (... |
human | Tyler has entered a buffet line in which he chooses one kind of meat, two different vegetables and one dessert. If the order of food items is not important, how many different meals might he choose?
$\bullet$ Meat: beef, chicken, pork
$\bullet$ Vegetables: baked beans, corn, potatoes, tomatoes
$\bullet$ Dessert:... |
gpt | There are $3$ choices for the meat and $4$ for dessert.
There are $\binom{4}{2} = 6$ ways to choose $2$ of the $4$ vegetables, since we don't care about the order in which the vegetables are chosen.
The answer therefore is $3\cdot 4\cdot 6=\boxed{72}.$ |
human | Mr. Jones has 6 children. Assuming that the gender of each child is determined independently and with equal likelihood of male and female, what is the probability that Mr. Jones has more sons than daughters or more daughters than sons? |
gpt | We could do this with a bit of casework, but that gets boring after a while. Instead, we can use complementary probability. Since each child can be male or female with equal likelihood, there are $2^6=64$ possible ways in which the genders of the children can be determined. The only way in which Mr. Jones won't have mo... |
human | When flipping a fair coin, what is the probability that the first two flips are both heads? Express your answer as a common fraction. |
gpt | The probability that any single flip comes up heads is $1/2$. Since the flips are independent, the probability that the first two flips are both heads is $1/2\cdot1/2=\boxed{\frac{1}{4}}$. |
human | A Senate committee has 8 Republicans and 6 Democrats. In how many ways can we form a subcommittee with 3 Republicans and 2 Democrats? |
gpt | There are 8 Republicans and 3 spots for them, so there are $\binom{8}{3} = 56$ ways to choose the Republicans. There are 6 Democrats and 2 spots for them, so there are $\binom{6}{2} = 15$ ways to choose the Democrats. So there are $56 \times 15 = \boxed{840}$ ways to choose the subcommittee. |
human | We call a number a mountain number if its middle digit is larger than any other digit. For example, 284 is a mountain number. How many 3-digit mountain numbers are there? |
gpt | We will break this into three cases.
Case 1: numbers of the form $xyx$ ($x \ne 0$).
Any pair of nonzero digits has a corresponding palindrome ($xyx$) mountain number, so the number of these is $\binom{9}{2} = 36$.
Case 2: numbers of the form $xyz$ ($z \ne 0, x \ne z$).
Any group of three nonzero digits ($y > x > z ... |
human | How many combinations of pennies (1 cent), nickels (5 cents) and/or dimes (10 cents) are there with a total value of 25 cents? |
gpt | First, we count the number of combinations that include pennies: we could have all pennies, all pennies and one nickel, all pennies and two nickels, all pennies and three nickels, all pennies and four nickels, all pennies and one dime, all pennies and two dimes, all pennies and one dime and one nickel, all pennies and ... |
human | How many ways are there to put 5 balls in 3 boxes if the balls are not distinguishable but the boxes are? |
gpt | Since the balls are indistinguishable, we must only count the number of balls in the different boxes.
There are $3$ ways to arrange the balls as $(5,0,0)$ (specifically, box 1 can have 5, box 2 can have 5, box 3 can have 5).
There are $3! = 6$ to arrange $(4,1,0)$ and $3! = 6$ ways to arrange $(3,2,0)$; in each case,... |
human | Cara is sitting at a circular table with her five friends as shown below. How many different possible pairs of people could Cara be sitting between?
[asy]
draw(circle((0,0),1));
label("$\_$",1.5dir(0));
label("$\_$",1.5dir(60));
label("Cara",1.5dir(120));
label("$\_$",1.5dir(180));
label("$\_$",1.5dir(240));
label("$\... |
gpt | The number of pairs of neighbors for Cara actually has nothing to do with the shape of the table she is sitting at. That is, all that matters is that she has 5 friends and two of them will be her neighbors. There are ${5 \choose 2} = \boxed{10}$ pairs of friends that she can thus sit between. |
human | The planning committee at school has 10 members. Exactly four of these members are teachers. A four-person subcommittee with at least one member who is a teacher must be formed from the members of the planning committee. How many distinct subcommittees are possible? |
gpt | Because there are 4 teachers on the committee, there are 6 non-teachers. Now, in total, we can form ${10 \choose 4} = 210$ subcomittees. The number of subcomittees with 0 teachers is the number of subcommittees formed by the 6 nonteachers, totaling ${6 \choose 4} = 15$. So, the number of subcomittees with at least 1 te... |
human | Ice-cream-o-rama is eager to advertise how many flavors it has. But it really only has three basic flavors: chocolate, vanilla, and strawberry. However, they can make "new" flavors by taking four scoops of ice cream of those basic flavors and blending them together. Different proportions of the basic flavors give diffe... |
gpt | We can think of the $3$ basic flavors as $3$ distinguishable boxes, and the $4$ scoops as $4$ indistinguishable balls. For every ball we put in the chocolate box, for instance, we put a scoop of chocolate ice cream in the blending machine. In this way we can correlate each new flavor with an arrangement of balls in box... |
human | 2 distinct vertices of an octagon are chosen at random. What is the probability that they are adjacent? |
gpt | After we choose the first vertex, there are 7 ways to choose the second. There are only 2 of these that are adjacent to the first vertex, so the probability the two vertices are adjacent is $\boxed{\frac{2}{7}}$. |
human | How many 4-letter words with at least one consonant can be constructed from the letters $A$, $B$, $C$, $D$, and $E$? (Note that $B$, $C$, and $D$ are consonants, any word is valid, not just English language words, and letters may be used more than once.) |
gpt | First we count the number of all 4-letter words with no restrictions on the word. Then we count the number of 4-letter words with no consonants. We then subtract to get the answer.
Each letter of a word must be one of $A$, $B$, $C$, $D$, or $E$, so the number of 4-letter words with no restrictions on the word is $5\ti... |
human | How many ways can we put 3 math books and 5 English books on a shelf if all the math books must stay together and all the English books must also stay together? (The math books are all different and so are the English books.) |
gpt | First we arrange the 2 groups of books; there are $2!$ ways in which we can do this. Then we can arrange the 3 math books in $3!$ ways and the 5 English books in $5!$ ways. Therefore, there are $2! \times 3! \times 5!=\boxed{1440}$ ways to arrange the books. |
human | The chart below gives the air distance in miles between selected world cities. If two different cities from the chart are chosen at random, what is the probability that the distance between them is less than $7000$ miles? Express your answer as a common fraction.
\begin{tabular}{|c|c|c|c|c|}
\hline
& Bangkok & Cape To... |
gpt | Although there are 12 entries on the table, there are only 6 different ``pairs'' of cities. Of the 6 pairs, 4 of them are less than 7,000 miles apart, yielding a $\boxed{\frac{2}{3}}$ probability that you select a pair less than 7,000 miles apart. |
human | Compute $\dbinom{15}{3}$. |
gpt | \begin{align*}
\dbinom{15}{3} &= \dfrac{15!}{12!3!} \\
&= \dfrac{15\times 14\times 13}{3\times 2\times 1} \\
&= \dfrac{15}{3} \times \dfrac{14}{2} \times \dfrac{13}{1} \\
&= 5\times 7\times 13 \\
&= \boxed{455}.
\end{align*} |
human | How many ways are there to arrange the letters of the word $\text{BA}_1\text{N}_1\text{A}_2\text{N}_2\text{A}_3$, in which the three A's and the two N's are considered different? |
gpt | This is counting the number of ways that six distinct objects can be put in order, so there are $6! = \boxed{720}$ different arrangements. |
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