"Consumer demand for a certain car is greater than the number of cars that can be produced" is the one among the following that <span>accurately describes a shortage. The correct option among all the options that are given in the question is the first option or option "a". I hope the answer helps you.</span>
Answer:
journal entries to record the December transactions
1-Dec
Cash $10500 (debit)
Common Stock $10500 (credit)
1-Dec
Rent Expense $950 (debit)
Cash $950 (credit)
1-Dec
Prepaid Insurance $600 (debit)
Cash $600 (credit)
1-Dec
Equipment $3600 (debit)
Cash $3600 (credit)
5-Dec
Supplies Expense $300 (debit)
Accounts Payable $300 (credit)
15-Dec
Cash $7200 (debit)
Service Revenue $7200 (credit)
16-Dec
Accounts Receivable $5200 (debit)
Service Revenue $5200 (credit)
21-Dec
Cash $2400 (debit)
Accounts Receivable $2400 (credit)
23-Dec
Accounts Payable $170 (debit)
Cash $170 (credit)
28-Dec
Wages Expense $4480 (debit)
Cash $4480 (credit)
30-Dec
Dividends $200 (debit)
Cash $200 (credit)
Explanation:
The General Journal consists of Entries of Expenses, Capital Expenditures and Receipts and Payments in Cash.
<span>The total equivalent warming impact (TEWI) takes into consideration both the direct and indirect global warming effects of refrigerants.
In addition to the direct impact of the refrigerant (which is conveniently estimated by GWP), any system or process, which requires energy input, indirectly affects the environment. This impact is originated from CO2 emissions from the energy production processes.
TEWI can be calculated using the equation below:
TEWI = direct emissions + indirect emissions = (GWP×L×N)+(Ea×β×n),
where
L – annual leakage rate in the system, kg (3% of refrigerant charge annually),
N – life of the system, years (15 years),
n – system running time, years (based on weather data, 4910 hours),
Ea – energy consumption, kWh per year (modelled for each refrigerant),
β – carbon dioxide emission factor, CO2-eq. emissions per kWh (165 g CO2/kWh).</span>
