Answer:
The answer is letter D.
Explanation:
The difference is statistically significant, large, and important.
Example its the best in the world hope i helped
If the minimum wage rate is higher than the equilibrium wage rate, fewer people will be hired because the cost of labor is too high. I agree.
Explanation:
- If the minimum wage is set above the equilibrium wage rate, it has powerful effects. The Labor Market and the Minimum Wage The equilibrium wage rate is $4 an hour. The minimum wage rate is set at $5 an hour. So the equilibrium wage rate is in the illegal region
- If the minimum wage is set below the equilibrium wage rate, it has no effect. The market works as if there were no minimum wage. If the minimum wage is set above the equilibrium wage rate, it has powerful effects.
- The equilibrium market wage rate is at the intersection of the supply and demand for labour. Employees are hired up to the point where the extra cost of hiring an employee is equal to the extra sales revenue from selling their output.
- When the labor market is in equilibrium, the economy is at full employment.
Answer:
identify the critical path
Explanation:
Based on the information provided, the logical next step for Emily would be to identify the critical path. This means identifying the sequence of project network activities that add up to the longest overall duration which in term will reveal the shortest time possible to complete this project through unnecessary parts within the critical path, and will allow her to meet the imposed deadline.
Answer:
1. 45.5%
2. 13.3%
3. 7.2%
Explanation:
The formulas and calculations are shown below:
1. Gross margin = (Sales - cost of sales) ÷ (sales) × 100
= ($10.1 million - $5.5 million) ÷ ($10.1 million) × 100
= ($4.6 million) ÷ ($10.1 million) × 100
= 45.5%
Gross profit = Sales - cost of sales
2. Operating margin = (Gross profit - selling, general and administrative expenses - research and development - annual depreciation charges) ÷ (sales) × 100
= ($4.6 million - $460,000 or $0.46 million - $1.4 million - $1.4 million) ÷ ($10.1 million) × 100
= ($1.34 million) ÷ ($10.1 million) × 100
= 13.3%
Operating income = Gross profit - selling, general and administrative expenses - research and development - annual depreciation charges
3. Net profit margin = (Operating income - taxes) ÷ (sales) × 100
= ($1.34 million - $0.6097 million) ÷ ($10.1 million) × 100
= ($0.7303 million) ÷ ($10.1 million) × 100
= 7.2%
The income tax expense = Operating income × income tax rate
= $1.34 million × 45.5%
= $0.6097 million
