Answer:
Suppose the cost per hour incurred in operating a cruise ship is 3a + b 
dollars per hour, where a and b are positive constants and v is the ship's speed in miles per hour. At what speed (in miles per hour) should the ship be operated between two ports, at a distance D miles apart, to minimize the cost? (Hint: Minimize the cost, not the cost per hour.)
<em>The speed at which the ship would maximize cost is </em>![\sqrt[3]{\frac{3a}{2b} }](https://tex.z-dn.net/?f=%5Csqrt%5B3%5D%7B%5Cfrac%7B3a%7D%7B2b%7D%20%7D)
Explanation:
The problem can be solved using differentiation to get the minimum value of the speed to travel between the two ports. Step by step calculation is contained in the attached images;
The answer is C.
Purose full behavior states that people make decisions with a desired outcome in mind, taking all the losses and benefits into consideration.
Answer:
c. seller receives cash sooner than if credit is granted directly to the customers
d. may allow seller to increase sales volume
Explanation:
When a customer uses a credit card, the bank that issued the card pays the seller immediately, and later, the bank recovers the money plus interest from the customer.
So this method allows for a faster collection of cash (basically immediatly) than if the seller granted the credit directly to the customer.
Credit cards also allow seller to increase sales volume because many people lack the cash necessary to pay down the full value of the purchase.
Answer:
I think it's D
Explanation:
because savings are in the beginning of their financial lives,”
I hope this helped u :)
Answer:
The correct answer is $300,000.
Explanation:
According to the scenario, the computation of the given data are as follows:
Original cost = $250,000
Fair value = $300,000
Retail value = $520,000
As Share based transaction of the organization record or issued always at fair value for which the goods or services are exchanged.
Here, Fair value is given.
So, the transaction will be recorded at fair value = $300,000
