Permutation and Combination

The word “EASYQUIZ” has 8 letters in which “EAUI” are vowels. Since vowels always come together, we can assume “EAUI” as a single unit letter. 4+1 letter can be arranged in 5! ways. Also, vowels “EAUI” can be arranged in 4! ways. Hence the total number of possible words = 5! * 4! = 2880.

The word “QUIZ” has 4 letters in which “UI” are vowels. Total number of possible words = 4! Treating “UI” as a single letter we can make words in 3! ways. “UI” can be arranged in 2! ways. Therefore, the number of words can be made using vowels together = 3! * 2! = 12 ways. Hence, the number of words can be made such that vowels never come together = 24 – 12 = 12 ways.

The word “APPLE” has 5 letters in which “P” comes twice. If repetition is allowed, the number of words we can form = 4*4*4*4*4 = 1024. (This is because, when repetition is allowed, we can put any of the four unique alphabets at each of the five positions.) If repetition is not allowed, the number of words we can form = 5!/2! = 60. (This is because "P" comes twice.)

We have to pick 3 men from 6 available men and 3 ladies from 7 available ladies. Required number of ways =  ⁶C₃ * ⁷C₃ = 20 * 35 = 700.

The interview panel of 3 members can be formed in 3 ways by selecting 1 engineer and 2 other professionals, 2 engineers and 1 other professionals and all 3 engineers.

• 1 engineer out of 3 engineers and 2 other professionals out of 5 professionals can be selected as = ³C₁ * ⁵C₂ = 3 * 10 = 30 ways.
• 2 engineers out of 3 engineers and 1 other professional out of 5 professionals can be selected as = ³C₂ * ⁵C₁ = 3 * 5 = 15 ways.
• 3 engineers out of 3 engineers and 0 other professional out of 5 professionals can be selected as = ³C₃ * ⁵C₀ = 1 way.

Hence, total number of ways = 30 + 15 + 1 = 46 ways.

A number is divisible by 5 if and only if its last digit is either 5 or 0. But, 0 is not available here. So, we have to fix 5 as a last digit of 4-digit number and fill 3 places with remaining 6 digits. Number of ways to choose 3 digits = ⁶C₃ = 20. Number of ways to arrange the chosen digits = 3! Hence, total number of required ways = ⁶C₃ * 3! = ⁶P₃ = 120.

The boys will be arranged in 20! ways. Now, there are a total of 21 possible places available between boys such that no 2 girls can be placed together (alternate sequence of boys and girls, starting and ending positions for girls). Therefore, the 18 girls can stand at these 21 places only. Hence, the number of ways = 20!* ²¹P₁₈ Option (D) is correct.

The man needs to take 6 steps to cross the river. He can do this in the following ways:

• Crossing the river by 6 unit steps = 1 way.
• Crossing the river by 4 unit steps and 1 double step = ⁵C₁ = 5C4 = 5 ways.
• Crossing the river by 2 unit steps and 2 double steps = ⁴C₂ = 6 ways.
• Crossing the river by 3 double steps = 1 way.

Hence, the required number of ways = 1 + 5 + 6 + 1 = 13.

Number of ways to choose 3 boys out of 7 = ⁷C₃. Number of ways to choose 2 girls out of 4 = ⁴C₂. Therefore, number of ways to choose the required groups = ⁷C₃ * ⁴C₂ = 35 * 6 = 210. Number of ways to arrange the 3 boys and 2 girls in a queue = 5! = 120. Therefore, the required number of queues = 210 * 120 = 25200.

There are three cases:

1. 3 green coins
2. 2 green coins + 1 non-green coin
3. 1 green coin + 2 non-green coins

Therefore, total number of ways = ³C₃ + ³C₂ * ⁶C₁ + ³C₁ * ⁶C₂ = 1 + 3*6 + 3*15 = 64.