- Arts & Culture 5917
- Business & Economics 678
- Computers 310
- Dictionaries & Encyclopedias 81
- Education & Science 75612
- Abstracts 252
- Astrology 4
- Astronomy 1
- Biology 8
- Chemistry 2141
- Coursework 15444
- Culture 9
- Diplomas 411
- Drawings 574
- Ecology 5
- Economy 83
- English 75
- Ethics, Aesthetics 3
- For Education Students 17592
- Foreign Languages 11
- Geography 2
- Geology 1
- History 89
- Maps & Atlases 5
- Mathematics 13848
- Musical Literature 2
- Pedagogics 19
- Philosophy 23
- Physics 14803
- Political Science 5
- Practical Work 101
- Psychology 60
- Religion 4
- Russian and culture of speech 8
- School Textbooks 7
- Sexology 42
- Sociology 9
- Summaries, Cribs 87
- Test Answers 150
- Tests 9243
- Textbooks for Colleges and Universities 32
- Theses 24
- To Help Graduate Students 14
- To Help the Entrant 37
- Vetting 361
- Works 13
- Информатика 10
- Engineering 3059
- Fiction 696
- House, Family & Entertainment 107
- Law 132
- Website Promotion 71
The store is supplied with bottled mineral water from 2
Refunds: 0
Uploaded: 15.01.2013
Content: 30115075705493.rar 24,25 kB
Product description
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
Additional information
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The probability that during transport the broken bottle would be for the local 0.5% and 2% of nonresident.
What is the probability that a bottle would be taken at random unsplit.
What is the expected proportion (in%) of broken bottles.
The task of the theory of probability
The store is supplied with bottled mineral water from 2 manufacturers: local and non-resident, with local supplies 40% of all products. The pro
Feedback
0| Period | |||
| 1 month | 3 months | 12 months | |
| 0 | 0 | 0 | |
| 0 | 0 | 0 | |