Answer:
Net assets of smith family = $167,000
Explanation:
Given:
Net worth of smith family = $100,000
Net liabilities of smith family = $67,000
Find:
Net assets of smith family
Computation:
Net assets = Net worth + Net liabilities
Net assets of smith family = Net worth of smith family + Net liabilities of smith family
Net assets of smith family = $100,000 + $67,000
Net assets of smith family = $167,000
Answer:
The correct answer is A.
Explanation:
Giving the following information:
Dubberly Corporation's cost formula for its manufacturing overhead is $31,100 per month plus $50 per machine-hour. For March, the company planned for activity of 8,000 machine-hours, but the actual level of activity was 7,930 machine-hours. The actual manufacturing overhead for the month was $454,110.
activity variance for manufacturing overhead= (50*8000) - (454,110 - 31,100)= 23,010 unfavorable.
Answer:
Cost of equity = 14.74%
Explanation:
The capital asset pricing model is a risk-based model for estimating the return on a stock..
Here, the return on equity is dependent on the level of reaction of the the equity to changes in the return on a market portfolio. These changes are captured as systematic risk.
Systematic risks are those which affect all economic actors in the market, they include factors like changes in interest rate, inflation, etc. The magnitude by which a stock is affected by systematic risk is measured by beta.
Under CAPM,
E(r)= Rf + β(Rm-Rf)
E(r)- cost of equity , Rf-risk-free rate , β= Beta, Rm= Return on market.
Using this model, we can work out the value of beta as follows:
β-1.2 Rf- 4.3%, Rm = 13%
E(r) = 4.3% + 1.2 × (13 - 4.3)%=14.74
%
Expected return = 14.74
%
Cost of equity = 14.74%
Answer:
a. The process is capable of meeting design specifications because the index is greater than 1
Explanation:
Missing word <em>"a. the index is greater than 1.0, b. the process is not capable of meeting design specifications because the index is less than 1.0, c. the process is capable of meeting design specifications because the index is twice the process capability ratio, d. none of the above"</em>
Process capability ratio (Cp) = (USL - LSL) / 6σ
- USL = 5+0.05= 5.05
- LSL = 5 - 0.05 = 4.95
- Standard deviation σ = 0.01
Process capability ratio (Cp) = 5.05 - 4.95 / 6*0.01
Process capability ratio (Cp) = 0.1 / 0.06
Process capability ratio (Cp) = 1.666666666666667
Process capability ratio (Cp) = 1.67
Process capability ratio Cp > 1. So, the Process is capable of meeting design specification.