6. A large residential area has 1400 households with an average household income of $40,000, an average household size of 4.8, and, on average, 1.5 working members. Using the model shown below, predict the average number of peak-hour vehicle based social/recreational trips in the area. Number of peak-hour vehicle-based social/recreational trips per household = 0.04 +0.018 (household size) + 0.009 (annual household income in thousands of dollars) + 0.16 (number of nonworking household members)

Please answer question 6

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5. Draw an appropriate dual ring diagram for the intersection shown in Figure A and assuming that all volumes are already adjusted. Explicitly write any calculations and assumptions made to reach your results. 265 ما إلى 10- 210 -10 ft- 45 15 775 Shopping Center 1 2 3 1165 30 50 는 634 10 ft- Figure A tr 250 25 24 ft 16 ft 24 ft 6. A large residential area has 1400 households with an average household income of $40,000, an average household size of 4.8, and, on average, 1.5 working members. Using the model shown below, predict the average number of peak-hour vehicle based social/recreational trips in the area. Distance from residential area (miles) 2.43 4.67 5.02 N Number of peak-hour vehicle-based social/recreational trips per household = 0.04 + 0.018 (household size) + 0.009 (annual household income in thousands of dollars) + 0.16 (number of nonworking household members) 7. It is known that 5,000 automobile trips are generated in a large residential area from 3:00 PM to 4:00 PM on Sundays for shopping purposes. If a logit model is estimated with coefficients of 0.0165 for commercial space (in thousands of ft²) and -0.5435 for distance (in miles), how many trips will be made to each of the 3 shopping centers with characteristics shown in the table below? Commercial floor space (ft²) 200,000 150,000 300,000