Answer:
Step-by-step explanation:
There are two distinct issues to address, correct?
1, The overall duration T required to fly from New York to Los Angeles:
Time = Distance/average speed
2, The problem related to the race:
A) The total duration of the race would be:
B) For swimming at an average pace of 2 miles per hour, this means r=2.
Substituting r=2 allows us to calculate the total time needed as follows:
When rounding the result: 1.84047 hours rounds to 110 minutes
a) q(p) = -15p + 300; b) R(p) = -15p² + 300p; c) C(p) = -30p + 1600; d) 1) P(p) = -15p² + 330p - 1600; d) 2) p = $11. To develop the demand equation, we plot the values of the cover charge against the number of guests per night for the given coordinates (9,165) and (10,150). The slope provides the relationship needed to formulate the linear equation relating guests and cover charge. The revenue function follows from multiplying price by guests, while the cost function encompasses overhead and beverage expenses associated with operational costs. The profitability equation emerges from subtracting costs from revenues, allowing us to determine the optimal entrance fee for maximum profit.
65,000. I'm quite certain because a 1 wouldn't be sufficient to shift the 5 higher.
