problem 1: you have 4 balls with different weights and 6 drawers stacked on top of each other. how many ways are there to organize the balls such that the top drawer will have exactly 1 ball and the bottom drawer will have at least 1 ball?

driliwra7

driliwra7

Answered question

2022-09-05

problem 1: you have 4 balls with different weights and 6 drawers stacked on top of each other. how many ways are there to organize the balls such that the top drawer will have exactly 1 ball and the bottom drawer will have at least 1 ball?
problem 2: from a group of 5 women and 6 men you need to choose a council made of a ceo, vp, cto, cfo. in how many ways can you do that such that the ceo is a women and the oldest of the men will be in the council?
problem 3: given a triangle on the plane; on each of its edges are 5 points that are not on the vertices. how many triangles can be created when each of their vertices are on the points stated?

Answer & Explanation

Yasmin Lam

Yasmin Lam

Beginner2022-09-06Added 13 answers

Step 1
Problem 1:
One ball should be in top drawer, so choosing one ball from 4 in 4 ways.
The other 3 calls can be arranged in 5 drawers in 3 5 ways.
But bottom should posses atleast one ball. So from 3 5 remove (number of ways 3 balls can be arranged in middle 4 drawers).
i.e. 4 ( 3 5 3 4 )
Step 2
Problem 2:
Choosing CEO ( one woman from a group of 5 ) in 5 ways.
Oldest among men will be in the council in 1 way.
Remaining 2 could be from other 4 women and 5 men, i.e. from 9 in 9C2 ways.
So ans is = 5 1 9 C 2
Phoenix Burch

Phoenix Burch

Beginner2022-09-07Added 11 answers

Step 1
2) 5 × 3 × 9 × 8.
Factor 5 corresponds with the number of choices for the ceo. Factor 3 with the number of duties that can be given to the oldest man. Then 9 persons are left for 2 duties, leading to 9 × 8 possibilities.
Step 2
3) 5 3 + 3 × ( 5 2 ) × 10.
If the 3 vertices are on 3 different edges then there are 5 3 possibilities. Looking at triangles having 2 vertices on the same edge there are 3 × ( 5 2 ) × 10 possibilities. Factor 3 corresponds with the choice of the edge with 2 vertices. Factor ( 5 2 ) with the choice of these 2 vertices, and factor 10 with the choice of the third vertex.

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