Answer:
A) Revenue function = R(x) = (580x - 10x²)
Marginal Revenue function = (580 - 20x)
B) Fixed Cost = 900
Marginal Cost function = (300 + 50x)
C) Profit function = P(x)
= (-35x² + 280x - 900)
D) The quantity that maximizes profit = 4
Step-by-step explanation:
Price funcrion for the cake = p = 580 - 10x
where x = number of cakes sold per day.
The total cost function is given as
C = (30 + 5x)² = (900 + 300x + 25x²)
where x = number of cakes sold per day.
Please note that all the calculations and functions obtained are done on a per day basis.
A) Find the revenue and marginal revenue functions [Hint: revenue is price multiplied by quantity i.e. revenue = price × quantity]
Revenue = R(x) = price × quantity = p × x
= (580 - 10x) × x = (580x - 10x²)
Marginal Revenue = (dR/dx)
= (d/dx) (580x - 10x²)
= (580 - 20x)
B) Find the fixed cost and marginal cost function [Hint: fixed cost does not change with quantity produced]
The total cost function is given as
C = (30 + 5x)² = (900 + 300x + 25x²)
The total cost function is a sum of the fixed cost and the variable cost.
The fixed cost is the unchanging part of the total cost function with changing levels of production (quantity produced), which is the term independent of x.
C(x) = 900 + 300x + 25x²
The only term independent of x is 900.
Hence, the fixed cost = 900
Marginal Cost function = (dC/dx)
= (d/dx) (900 + 300x + 25x²)
= (300 + 50x)
C) Find the profit function [Hint: profit is revenue minus total cost]
Profit = Revenue - Total Cost
Revenue = (580x - 10x²)
Total Cost = (900 + 300x + 25x²)
Profit = P(x)
= (580x - 10x²) - (900 + 300x + 25x²)
= 580x - 10x² - 900 - 300x - 25x²
= 280x - 35x² - 900
= (-35x² + 280x - 900)
D) Find the quantity that maximizes profit
To obtain this, we use differentiation analysis to obtain the maximum point of the Profit function.
At maximum point, (dP/dx) = 0 and (d²P/dx²) < 0
P(x) = (-35x² + 280x - 900)
(dP/dx) = -70x + 280 = 0
70x = 280
x = (280/70) = 4
(d²P/dx²) = -70 < 0
Hence, the point obtained truly corresponds to a maximum point of the profit function, P(x).
This quantity demanded is the quantity demanded that maximises the Profit function.
Hope this Helps!!!
