There are two different routes to the Williamson synthesis of 2-methyltetrahydrofuran, but there is only one...

Two airlines have market power on different routes. Sprint is the only airline on the route...

Two airlines have market power on different routes. Sprint is the only airline on the route from A to B, and Beta has the only flights from B to C. Sprint can sell a flight from A to C to consumers by buying a flight from Beta on the B to C route. Why might you expect that this flight will have a higher price than if Sprint had the only flights on the routes B to C and A...

A trucking company would like to compare two different routes for efficiency. Truckers are randomly assigned...

A trucking company would like to compare two different routes for efficiency. Truckers are randomly assigned to two different routes. Twenty truckers following Route A report an average of 42 ​minutes, with a standard deviation of 4 minutes. Twenty truckers following Route B report an average of 47 minutes with a standard deviation of 3 minutes. Histograms of travel times for the routes are roughly symmetric and show no outliers. ​a) Find a​ 95% confidence interval for the difference in...

Four different traffic routes are tested for mean driving time. The entries in the table are...

Four different traffic routes are tested for mean driving time. The entries in the table are the driving times in minutes on the four different routes. At the 0.05 level of significance, are the mean driving times similar regardless of routes? Route 1: 30, 32, 27, 35 Route 2: 28, 36, 35, 71 Route 3: 22, 21, 19, 23 Route 4: 25, 29, 28,35 What is the null hypothesis? What is the alternative hypothesis? What is test statistic? Please answer...

There are six routes between Connie’s home and her place of work. In how many different...

There are six routes between Connie’s home and her place of work. In how many different ways can she go to and from work? In how many different ways can she go to and from work if she doesn’t want to use the same route both ways? If two of her six routes have been made into one-way streets (in opposite directions), in how many ways can she go to and from work, assuming that she is willing to use...

an armored car transports money between two locations and travels along one of the three routes:...

an armored car transports money between two locations and travels along one of the three routes: A1,B1,C1. On one day, the route is randomly selected according to the probabilities P(A1)=0.4, P(B1)=0.2, P(C1)=0.4. However, on the second day, the probabilities change so that the probability of the previously chosen route is 0.2 with the other two routes equally probable. Denote those second-day routes by A2, B2, C2. Find P(A2|A1).

Two different routes for a sewer line are under consideration by a city engineer. Route A...

Two different routes for a sewer line are under consideration by a city engineer. Route A is a 20000 foot long gravity line, 8000 foot of this requires tunneling at a cost of $ 250 per linear foot. The remaining 12000 foot will cost $80 per linear foot. The annual maintenance cost is estimated to be $2000. The expected life of the line is 35 years. Route B is a 23000 foot long line requiring a pumping station. The construction...

Morgan wants to test the speed for two different routes she can take to ride her...

Morgan wants to test the speed for two different routes she can take to ride her bicycle home from work. Route A involves riding her bicycle on a busy road, and Route B involves riding her bicycle along a scenic trail. Morgan collects some initial data, given in the table below: Route A Route B ?⎯⎯⎯=10 minutes ?⎯⎯⎯=7 minutes ?=4 minutes ?=5 minutes ?=7 ?=6 Based on Morgan's initial data, she conducts a hypothesis test to determine whether there is...

You use a coordinate plane to plot the two bus routes that you can take from...

You use a coordinate plane to plot the two bus routes that you can take from your house to your school. You plot your house at A(5, 5) and the school at C(24, 20). The first route includes one bus stop at B(5, 20). The second route includes three bus stops at D(24, 15), E(20, 15), and F(20, 5). Which route has the shorter distance? Explain.

Two routes connect an origin-destination pair with performance functions t1 = 2+x1 and t2 = 1+2x2...

Two routes connect an origin-destination pair with performance functions t1 = 2+x1 and t2 = 1+2x2 (with t’s in minutes and x’s in thousands of vehicles per hour). It is known that at user equilibrium, 60% of the origin-destination demand takes route 1. What percentage would take route 2 if a system optimal solution were achieved?

Consider data transmission between two computers in different geographical locations. Data is transmitted in ‘blocks’, that...

Consider data transmission between two computers in different geographical locations. Data is transmitted in ‘blocks’, that is, in fixed-length sequences of digits. Suppose that the transmission may be routed over any one of three different routes, the selection being made automatically by a route selector according to existing traffic conditions, every time transmission of a block is initiated. Transmission takes place over the three routes various fractions of the time, as follows: Route A: 60% of the time Route B:...