A small firm manufactures gold rings and chains. The total number of rings and chains manufactured per day is at most 24. It takes 1 hour to make a ring and 30 minutes to make a chain. The maximum number of hours available per day is 16. If the profit on a ring is Rs. 300 and that on a chain is Rs. 190, find the number of rings and chains that should be manufactured per day, so as to earn the maximum profit. Make it as an L.P.P. and solve it graphically
A card form a pack of 52 cards is lost. From the remaining cards of the pack, two cards are drawn at random and are found to be both clubs. Find the probability of the lost card being of clubs.
From a lot of 10 bulbs, which includes 3 defectives, a sample of 2 bulbs is drawn at random. Find the probability distribution of the number of defective bulbs.
Total number of bulbs = 10
Number of defective bulbs = 3
Number of non-defective bulbs = 7
P ( drawing a defective bulb ), P =
P ( drawing a non-defective bulb ), q =
Two bulbs are drawn.
Let X denote the number of defective bulbs, then X can take values
0, 1, and 2.
P ( X = 0 ) = P ( drawing both non-defective bulb ) =
P ( x = 1 ) = P ( drawing one defective bulb and one non-defective bulbs )
= P ( drawing a non-defective bulb and a defective bulb ) + P ( drawing a defective bulb and a non-defective bulb )
Required probability distribution is
X | 0 | 1 | 2 |
P ( x ) |
Write the vector equations of the following lines and hence determine the distance between them: