Material requirements plus an allowance for normal inefficiencies are added together to determine the standard quantity of a direct material per unit of output.
<h3>
What is the standard quantity?</h3>
- The number of resources that should have been utilized to finish the period's output, as determined by multiplying the actual number of units produced by the standard quantity per unit.
- It is calculated by multiplying actual production units by the standard material quantity per unit.
- For example, during the month of March, a company manufactured 2000 items.
- The typical amount of material needed to produce one unit of output was 5 pounds.
- A standard amount against which a quantity is measured [e.g., gram, meter, second, liter, pascal; units of the aforementioned quantities].
- Chemists conduct many measurements.
- If the mass of a substance is discovered to be 6.0 grams, this can be stated mathematically. m = 6.0 g.
Therefore, material requirements plus an allowance for normal inefficiencies are added together to determine the standard quantity of a direct material per unit of output.
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The complete question is given below:
Material requirements plus an allowance for normal inefficiencies are added together to determine the ___________________ of a direct material per unit of output.
Answer: Option A
Explanation: For finance, an investment's beta (β or beta coefficient) is a measure of risk as opposed to idiosyncratic variables resulting from vulnerability to current market fluctuations.
The financial assets ' equity pool has a beta of precisely 1. A beta under 1 may imply either a less volatility in investment than the market, or a volatile portfolio whose price changes are not closely linked to the industry.Beta is relevant because it calculates the risk of a diversification-free investment.
Answer:
n= 65.27 years
Explanation:
Giving the following information:
Present value (PV)= $2,000
Future value (FV)= $4,500
Interes rate (i)= 1.25% annual compounding
<u>To calculate the number of years required to reach the objective, we need to use the following formula:</u>
n= ln(FV/PV) / ln(1+i)
n= ln(4,500 / 2,000) / ln(1.0125)
n= 65.27 years
Answer: (d) liability - refundable deposits.
Explanation:
The refundable deposit of $1,000 was a liability because Growler owed it to the customer and were simply holding it for when the customer returned the equipment.
Upon receipt of the deposit, they credited the Refundable deposits accounts which is a liability account. Now that the customer has returned the cleaning equipment and the deposit is to be refunded to the customer, Growler should now debit the Refundable deposits account to cancel out the liability.
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