There are two machines available for cutting corks intended for use in wine bottles. The first...

There are two machines available for cutting corks intended for use in wine bottles. The first...

There are two machines available for cutting corks intended for use in wine bottles. The first produces corks with diameters that are normally distributed with mean 3 cm and a standard deviation of 0.1 cm. The second produces corks with diameters that have a normal distribution with mean 3.04 cm and variance 0.0025 cm2. The specifications for the diameter of an acceptable cork are between 2.9 cm and 3.1 cm. Therefore, what should be the mean of the second one...

Two machines turn out all the products in a factory, with the first machine producing 60%...

Two machines turn out all the products in a factory, with the first machine producing 60% of the product and the second 40%. The first machine produces defective products 2% of the time and the second machine 9% of the time. Given a defective product, what is the probability it was produced on the first machine? (Round your answer to four decimal places.)

Three machines turn out all the products in a factory, with the first machine producing 15%...

Three machines turn out all the products in a factory, with the first machine producing 15% of the products, the second machine 25%, and the third machine 60%. The first machine produces defective products 20% of the time, the second machine 3% of the time and the third machine 5% of the time. What is the probability that a non-defective product came from the second machine? (Round your answer to four decimal places.)

Three machines turn out all the products in a factory, with the first machine producing 15%...

Three machines turn out all the products in a factory, with the first machine producing 15% of the products, the second machine 25%, and the third machine 60%. The first machine produces defective products 20% of the time, the second machine 3% of the time and the third machine 5% of the time. What is the probability that a non-defective product came from the second machine? (Round your answer to four decimal places.)

An instructor who taught two sections of engineering statistics last term, the first with 25 students...

An instructor who taught two sections of engineering statistics last term, the first with 25 students and the second with 40, decided to assign a term project. After all projects had been turned in, the instructor randomly ordered them before grading. Consider the first 15 graded projects. (a) What is the probability that exactly 10 of these are from the second section? (Round your answer to four decimal places.) (b) What is the probability that at least 10 of these...

An instructor who taught two sections of engineering statistics last term, the first with 25 students...

An instructor who taught two sections of engineering statistics last term, the first with 25 students and the second with 35, decided to assign a term project. After all projects had been turned in, the instructor randomly ordered them before grading. Consider the first 15 graded projects. (a) What is the probability that exactly 10 of these are from the second section? (Round your answer to four decimal places.) (b) What is the probability that at least 10 of these...

An instructor who taught two sections of engineering statistics last term, the first with 25 students...

An instructor who taught two sections of engineering statistics last term, the first with 25 students and the second with 40, decided to assign a term project. After all projects had been turned in, the instructor randomly ordered them before grading. Consider the first 15 graded projects. (a) What is the probability that exactly 10 of these are from the second section? (Round your answer to four decimal places.) (b) What is the probability that at least 10 of these...

An instructor who taught two sections of engineering statistics last term, the first with 25 students...

An instructor who taught two sections of engineering statistics last term, the first with 25 students and the second with 35, decided to assign a term project. After all projects had been turned in, the instructor randomly ordered them before grading. Consider the first 15 graded projects. (a) What is the probability that exactly 10 of these are from the second section? (Round your answer to four decimal places.) (b) What is the probability that at least 10 of these...

An instructor who taught two sections of engineering statistics last term, the first with 25 students...

An instructor who taught two sections of engineering statistics last term, the first with 25 students and the second with 35, decided to assign a term project. After all projects had been turned in, the instructor randomly ordered them before grading. Consider the first 15 graded projects. (a) What is the probability that exactly 10 of these are from the second section? (Round your answer to four decimal places.) (b) What is the probability that at least 10 of these...

An instructor who taught two sections of engineering statistics last term, the first with 25 students...

An instructor who taught two sections of engineering statistics last term, the first with 25 students and the second with 30, decided to assign a term project. After all projects had been turned in, the instructor randomly ordered them before grading. Consider the first 15 graded projects. (a) What is the probability that exactly 10 of these are from the second section? (Round your answer to four decimal places.) Answer : 0.1341 (b) What is the probability that at least...