A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 49 sample problems. The new algorithm completes the sample problems with a mean time of 11.41 hours. The current algorithm completes the sample problems with a mean time of 13.41 hours. The standard deviation is found to be 4.040 hours for the new algorithm, and 4.742 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 70 sample problems. The new algorithm completes the sample problems with a mean time of 18.56 hours. The current algorithm completes the sample problems with a mean time of 20.22 hours. Assume the population standard deviation for the new algorithm is 5.291 hours, while the current algorithm has a population standard deviation of 3.428 hours. Conduct a...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 89 sample problems. The new algorithm completes the sample problems with a mean time of 17.64 hours. The current algorithm completes the sample problems with a mean time of 17.75 hours. The standard deviation is found to be 4.5614.561 hours for the new algorithm, and 4.210 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 36 sample problems. The new algorithm completes the sample problems with a mean time of 22.83 hours. The current algorithm completes the sample problems with a mean time of 23.06 hours. The standard deviation is found to be 3.511 hours for the new algorithm, and 3.471 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 49 sample problems. The new algorithm completes the sample problems with a mean time of 19.11 hours. The current algorithm completes the sample problems with a mean time of 21.00 hours. The standard deviation is found to be 5.896 hours for the new algorithm, and 3.674 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 44 sample problems. The new algorithm completes the sample problems with a mean time of 14.97 hours. The current algorithm completes the sample problems with a mean time of 17.81 hours. The standard deviation is found to be 4.448 hours for the new algorithm, and 3.520 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 76 sample problems. The new algorithm completes the sample problems with a mean time of 21.91 hours. The current algorithm completes the sample problems with a mean time of 23.08 hours. Assume the population standard deviation for the new algorithm is 5.316 hours, while the current algorithm has a population standard deviation of 4.853 hours. Conduct a...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 51 sample problems. The new algorithm completes the sample problems with a mean time of 24.83 hours. The current algorithm completes the sample problems with a mean time of 27.75 hours. The standard deviation is found to be 4.193 hours for the new algorithm, and 4.285 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 48 sample problems. The new algorithm completes the sample problems with a mean time of 19.50 hours. The current algorithm completes the sample problems with a mean time of 21.16 hours. The standard deviation is found to be 3.608 hours for the new algorithm, and 4.538 hours for the current algorithm. Conduct a hypothesis test at the...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each...

A systems analyst tests a new algorithm designed to work faster than the currently-used algorithm. Each algorithm is applied to a group of 50 sample problems. The new algorithm completes the sample problems with a mean time of 17.92 hours. The current algorithm completes the sample problems with a mean time of 20.50 hours. The standard deviation is found to be 3.761 hours for the new algorithm, and 4.081 hours for the current algorithm. Conduct a hypothesis test at the...