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Permutations with Restrictions 4Permutations with Restrictions 4
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Question 1 of 7
1. Question
Find the number of ways `3` unique cats and `5` unique dogs can be seated in a straight line, given that the `3` cats must always sit together- (4320)
Hint
Help VideoCorrect
Correct!
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Use the permutations formula to find the number of ways an item can be arranged `(r)` from the total number of items `(n)`.Remember that order is important in Permutations.Permutation Formula if `(n=r)`
$$ _\color{purple}{n}P_{\color{purple}{n}}=\color{purple}{n}! $$Solve the number of arrangements if the three cats are treated as one entity and the number of arrangements for those `3` cats, then multiply them.First, treat the `3` cats as one. This leaves us with `6` animals `(r)` to be seated in `6` places in the straight line `(n)``n=r=4`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{6}P_{\color{purple}{6}}$$ `=` $$\color{purple}{6}!$$ Substitute the value of `n` `=` $$6\cdot5\cdot4\cdot3\cdot2\cdot1$$ `=` $$720$$ There are `720` ways to arrange `6` animals.Next, arrange the `3` cats `(r)` in `3` positions `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange three catsFinally, multiply the two solved permutations`6``P``6``=720``3``P``3``=6`$$720\cdot6$$ `=` $$4320$$ Therefore, there are `4320` ways of arranging `3` cats and `5` dogs if the cats should be seated together`4320` -
Question 2 of 7
2. Question
A bakery has a section for Muffins, Donuts and Cookies. How many ways can `6` muffins, `3` donuts, and `2` cookies be arranged if they must stay in their respective sections?Hint
Help VideoCorrect
Keep Going!
Incorrect
Use the permutations formula to find the number of ways an item can be arranged `(r)` from the total number of items `(n)`.Remember that order is important in Permutations.Permutation Formula if `(n=r)`
$$ _\color{purple}{n}P_{\color{purple}{n}}=\color{purple}{n}! $$Solve and multiply four permutations for: the sections, muffins, donuts and cookies.First, arrange `3` sections `(r)` in `3` positions `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` sections.Next, arrange `6` muffins `(r)` in `6` positions `(n)``n=r=6`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{6}P_{\color{purple}{6}}$$ `=` $$\color{purple}{6}!$$ Substitute the value of `n` `=` $$6\cdot5\cdot4\cdot3\cdot2\cdot1$$ `=` $$720$$ There are `720` ways to arrange `6` muffinsThen, arrange `3` donuts `(r)` in `3` positions `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` donutsNow, arrange `2` cookies `(r)` in `2` positions `(n)``n=r=2`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{2}P_{\color{purple}{2}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$2\cdot1$$ `=` $$2$$ There are `2` ways to arrange `2` cookiesFinally, multiply the four solved permutationssections`=6`muffins`=720`donuts`=6`cookies`=2`$$6\cdot720\cdot6\cdot2$$ `=` `51 840` Therefore, there are `51 840` ways of arranging `6` muffins, `3` donuts and `2` cookies in their respective sections`51 840` -
Question 3 of 7
3. Question
A music playlist has a section for Rock, Jazz and Pop music. How many ways can `4` rock songs, `3` jazz songs, and `2` pop songs be arranged if they must stay in their respective genres?- (1728)
Hint
Help VideoCorrect
Fantastic!
Incorrect
Use the permutations formula to find the number of ways an item can be arranged `(r)` from the total number of items `(n)`.Remember that order is important in Permutations.Permutation Formula if `(n=r)`
$$ _\color{purple}{n}P_{\color{purple}{n}}=\color{purple}{n}! $$Solve and multiply four permutations for: the genres, rock songs, jazz songs and pop songs.First, arrange `3` genres `(r)` in `3` positions `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` genres.Next, arrange `4` rock songs `(r)` in `4` positions `(n)``n=r=4`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{4}P_{\color{purple}{4}}$$ `=` $$\color{purple}{4}!$$ Substitute the value of `n` `=` $$4\cdot3\cdot2\cdot1$$ `=` $$24$$ There are `24` ways to arrange `4` rock songsThen, arrange `3` jazz songs `(r)` in `3` positions `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` jazz songsNow, arrange `2` pop songs `(r)` in `2` positions `(n)``n=r=2`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{2}P_{\color{purple}{2}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$2\cdot1$$ `=` $$2$$ There are `2` ways to arrange `2` pop songsFinally, multiply the four solved permutationsgenres`=6`rock songs`=24`jazz songs`=6`pop songs`=2`$$6\cdot24\cdot6\cdot2$$ `=` `1728` Therefore, there are `1728` ways of arranging `4` rock songs, `3` jazz songs and `2` pop songs in their respective sections`1728` -
Question 4 of 7
4. Question
A music playlist has a section for Rock, Jazz and Pop music. Given that the rock genre must be placed last, how many ways can `4` rock songs, `3` jazz songs, and `2` pop songs be arranged?- (576)
Hint
Help VideoCorrect
Excellent!
Incorrect
Use the permutations formula to find the number of ways an item can be arranged `(r)` from the total number of items `(n)`.Remember that order is important in Permutations.Permutation Formula if `(n=r)`
$$ _\color{purple}{n}P_{\color{purple}{n}}=\color{purple}{n}! $$Solve and multiply four permutations for: the genres, rock songs, jazz songs and pop songs.First, remember that the rock genre must stay last. This means we are left to arrange `2` genres `(r)` in `2` positions `(n)``n=r=2`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{2}P_{\color{purple}{2}}$$ `=` $$\color{purple}{2}!$$ Substitute the value of `n` `=` $$2\cdot1$$ `=` $$2$$ There are `2` ways to arrange `3` genres if rock must stay last.Next, arrange `4` rock songs `(r)` in `4` positions `(n)``n=r=4`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{4}P_{\color{purple}{4}}$$ `=` $$\color{purple}{4}!$$ Substitute the value of `n` `=` $$4\cdot3\cdot2\cdot1$$ `=` $$24$$ There are `24` ways to arrange `4` rock songsThen, arrange `3` jazz songs `(r)` in `3` positions `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` jazz songsNow, arrange `2` pop songs `(r)` in `2` positions `(n)``n=r=2`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{2}P_{\color{purple}{2}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$2\cdot1$$ `=` $$2$$ There are `2` ways to arrange `2` pop songsFinally, multiply the four solved permutationsgenres`=2`rock songs`=24`jazz songs`=6`pop songs`=2`$$2\cdot24\cdot6\cdot2$$ `=` `576` Therefore, there are `576` ways of arranging `4` rock songs, `3` jazz songs and `2` pop songs if the rock genre must stay last`576` -
Question 5 of 7
5. Question
A pizza booth has `6` seats — `3` on the left side and `3` on the right. How many ways can six people be seated in the booth if `2` girls insist that they sit on the right side?- (144)
Hint
Help VideoCorrect
Nice Job!
Incorrect
Use the permutations formula to find the number of ways an item can be arranged `(r)` from the total number of items `(n)`.Remember that order is important in Permutations.Permutation Formula
$$ _\color{purple}{n}P_{\color{green}{r}}=\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!} $$Solve the permutation for the two girls who want to sit on the right side and the permutation for the remaining `4` people, then multiply.First, arrange `2` girls `(r)` in the `3` seats on the right side `(n)``n=3``r=2`$$_\color{purple}{n}P_{\color{purple}{r}}$$ `=` $$\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!}$$ Permutation Formula $$_\color{purple}{3}P_{\color{purple}{2}}$$ `=` $$\frac{\color{purple}{3}!}{(\color{purple}{3}-\color{green}{2})!}$$ Substitute the value of `n` and `r` `=` $$\frac{3!}{1!}$$ `=` $$\frac{3\cdot2\cdot\color{#CC0000}{1}}{\color{#CC0000}{1}}$$ `=` $$6$$ Cancel like terms and evaluate There are `6` ways to arrange `2` girls in the three seats on the right.Next, arrange `4` people `(r)` in `4` seats `(n)``n=r=4`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{4}P_{\color{purple}{4}}$$ `=` $$\color{purple}{4}!$$ Substitute the value of `n` `=` $$4\cdot3\cdot2\cdot1$$ `=` $$24$$ There are `24` ways to arrange `4` peopleFinally, multiply the two solved permutations`2` girls`=6``4` people`=24`$$6\cdot24$$ `=` `144` Therefore, there are `144` ways of arranging `6` people in the pizza booth if `2` girls want to sit on the right side`144` -
Question 6 of 7
6. Question
A learjet has `8` seats — `4` on the left side and `4` on the right. How many ways can eight people be seated in the learjet if `3` passengers insist to be on the right side and `2` passengers insist to be on the left side?- (1728)
Hint
Help VideoCorrect
Well Done!
Incorrect
Use the permutations formula to find the number of ways an item can be arranged `(r)` from the total number of items `(n)`.Remember that order is important in Permutations.Permutation Formula
$$ _\color{purple}{n}P_{\color{green}{r}}=\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!} $$Solve the permutation for the `3` passengers who want to sit on the right side, the `2` passengers who want to sit on the left side and the permutation for the remaining `3` people, then multiply.First, arrange `3` passengers `(r)` in the `4` seats on the right side `(n)``n=4``r=3`$$_\color{purple}{n}P_{\color{purple}{r}}$$ `=` $$\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!}$$ Permutation Formula $$_\color{purple}{4}P_{\color{purple}{3}}$$ `=` $$\frac{\color{purple}{4}!}{(\color{purple}{4}-\color{green}{3})!}$$ Substitute the value of `n` and `r` `=` $$\frac{4!}{1!}$$ `=` $$\frac{4\cdot3\cdot2\cdot\color{#CC0000}{1}}{\color{#CC0000}{1}}$$ `=` $$24$$ Cancel like terms and evaluate There are `24` ways to arrange `3` passengers in the four seats on the right.Next, arrange `2` passengers `(r)` in the `4` seats on the left side `(n)``n=4``r=2`$$_\color{purple}{n}P_{\color{purple}{r}}$$ `=` $$\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!}$$ Permutation Formula $$_\color{purple}{4}P_{\color{purple}{2}}$$ `=` $$\frac{\color{purple}{4}!}{(\color{purple}{4}-\color{green}{2})!}$$ Substitute the value of `n` and `r` `=` $$\frac{4!}{2!}$$ `=` $$\frac{4\cdot3\cdot\color{#CC0000}{2\cdot1}}{\color{#CC0000}{2\cdot1}}$$ `=` $$12$$ Cancel like terms and evaluate There are `12` ways to arrange `2` passengers in the four seats on the left.Now, arrange `3` remaining passengers `(r)` in `3` remaining seats `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` passengersFinally, multiply the three solved permutationspassengers who want to sit on the right`=24`passengers who want to sit on the left`=12`other passengers`=6`$$24\cdot12\cdot6$$ `=` `1728` Therefore, there are `1728` ways of arranging `8` passengers in the learjet if `3` want to sit on the right and `2` want to sit on the left.`1728` -
Question 7 of 7
7. Question
A speedboat has `4` seats — `2` on the port side (left side) and `2` on the right. One girl wishes to sit on the port side. If there are `4` passengers on the boat, what is the probability of that happening?Write fractions in the format “a/b”- (1/2)
Hint
Help VideoCorrect
Exceptional!
Incorrect
Permutation Formula
$$ _\color{purple}{n}P_{\color{green}{r}}=\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!} $$Probability
$$\frac{\color{#e65021}{\mathsf{favourable\:outcome}}}{\color{#007DDC}{\mathsf{total\:outcome}}}$$Solve the the number of ways the girl could get a seat on the port side and divide it by the total number of ways all `4` passengers can be arranged.First, place `1` girl `(r)` in the `2` seats on the port side `(n)``n=2``r=1`$$_\color{purple}{n}P_{\color{purple}{r}}$$ `=` $$\frac{\color{purple}{n}!}{(\color{purple}{n}-\color{green}{r})!}$$ Permutation Formula $$_\color{purple}{2}P_{\color{purple}{1}}$$ `=` $$\frac{\color{purple}{2}!}{(\color{purple}{2}-\color{green}{1})!}$$ Substitute the value of `n` and `r` `=` $$\frac{2!}{1!}$$ `=` $$\frac{2\cdot\color{#CC0000}{1}}{\color{#CC0000}{1}}$$ `=` $$2$$ Cancel like terms There are `2` ways to place `1` girl on the port side.Now, arrange `3` remaining passengers `(r)` in `3` remaining seats `(n)``n=r=3`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{3}P_{\color{purple}{3}}$$ `=` $$\color{purple}{3}!$$ Substitute the value of `n` `=` $$3\cdot2\cdot1$$ `=` $$6$$ There are `6` ways to arrange `3` passengersMultiply the two solved permutationsgirl who wants to sit on the port side`=2`other passengers`=6`$$2\cdot6$$ `=` `12` Hence, there are `12` ways of arranging `4` passengers on the boat if a girl wants to sit on the port side. This is the favourable outcomeNext, find the total number of ways to arrange all `4` passengers `(r)` in the `4` seats `(n)``n=r=4`$$_\color{purple}{n}P_{\color{purple}{n}}$$ `=` $$\color{purple}{n}!$$ Permutation Formula (if `n=r`) $$_\color{purple}{4}P_{\color{purple}{4}}$$ `=` $$\color{purple}{4}!$$ Substitute the value of `n` `=` $$4\cdot3\cdot2\cdot1$$ `=` $$24$$ Hence, there are `24` ways to arrange `4` passengers. This is the total outcomeFinally, solve for the probabilityProbability `=` $$\frac{\color{#e65021}{\mathsf{favourable\:outcome}}}{\color{#007DDC}{\mathsf{total\:outcome}}}$$ `=` $$\frac{\color{#e65021}{12}}{\color{#007DDC}{24}}$$ `=` $$\frac{1}{2}$$ The probability that the girl gets to sit on the port side is `1/2``1/2`
Quizzes
- Factorial Notation
- Fundamental Counting Principle 1
- Fundamental Counting Principle 2
- Fundamental Counting Principle 3
- Combinations 1
- Combinations 2
- Combinations with Restrictions 1
- Combinations with Restrictions 2
- Combinations with Probability
- Basic Permutations 1
- Basic Permutations 2
- Basic Permutations 3
- Permutation Problems 1
- Permutation Problems 2
- Permutations with Repetitions 1
- Permutations with Repetitions 2
- Permutations with Restrictions 1
- Permutations with Restrictions 2
- Permutations with Restrictions 3
- Permutations with Restrictions 4