Answer:
a. Yes. It is a probability density function because \sum f(x) =1
. b. probability MCC will obtain more than 30 new clients=P(40)+P(50)+P(60)= 0.20+0.35+0.20=0.75
c. probability MCC will obtain fewer than 20 new clients= P(10)= 0.05
d.
x f(x) x*f(x) x*x*f(x)
10 0.05 0.5 5
20 0.1 2 40
30 0.1 3 90
40 0.2 8 320
50 0.35 17.5 875
60 0.2 12 720
1 43 2050
expected value = \sum xf(x) = 43
Variance = 2050-43^2= 201
Explanation:
Cost per unit
(300,000÷15,000)+20=40
Current profit
50×15,000−40×15,000=150,000
Profit change
60×15,000−40×15,000=300,000
units will knoll need to sell for profit to remain the same as before the price change is
(150,000+300,000)÷40=11,250
Answer: Proceeds transaction
Explanation:
In a proceeds transaction, the broker is involved in two related transactions which are the selling of one stock and the buying of another.
Proceed transactions involve a customer asking their broker to sell their stock and then use the proceeds gained from that sale to buy another stock which is what the customer did when he directed his broker to sell ABCD stock and use the proceeds to buy XPDQ stock.
Answer: Mixed
Explanation:
Here is the complete question:
Max Machining incurs the following utilities costs at different levels of production:
0 units: $120
500 units: $2,620
1,000 units: $5,120
How would utility costs be properly classified?
A) Curvilinear
B) Variable
C) Mixed
D) Fixed
E) Stepped
The utility cost here will be classified as a mixed cost. A mixed cost is a type of cost that has both fixed and variable cost. At 0 units, $120 was already spent. This shows that this cost is a fixed cost as it doesn't have anything to do with output. It'll still be paid regardless of the number of outputs while the other cost incurred are variable cost which is dependent on the number of outputs of goods.
Based on the explanation above, the answer is mixed cost.
