The answer for this question would be
A) Rationing or the first option.
Answer:
A) higher interest rates ; largely offset by the lower interest rates
Explanation:
If the government carries on an expansionary monetary policy, it will lower interest rates and increase the money supply in an attempt to increase aggregate demand. If at the same time it increases the interest rate it will pay for borrowing money (e.g. increase treasury bills' interest rates), that would make no sense since one policy would offset the other.
A government cannot increase the money supply and then increase the interest rates on treasury bills since that would lower the money supply again.
Answer:
APR, or annual percentage rate, is your interest rate stated as a yearly rate. An APR for a loan can include fees you may be charged, like origination fees. APR is important because it can give you a good idea of how much you'll pay to take out a loan.
Explanation:
Answer:
As the ice melts and turns into water, the level of the liquid water will lower and it will no longer be perfectly leveled with the rim of the glass. This happens because water has a unique property, its solid state occupies a larger volume than its liquid state, i.e. as waters turns into ice, it expands and occupies more space. Generally, as liquids become solid, they will shrink and occupy less space, but that doesn't happen with water.
Explanation:
Answer:
He needs to deposit each year $747.38
Explanation:
Giving the following information:
To help you reach a $5,000 goal in five years from now, your father offers to give you $500 now. You plan to get a part-time job and make five additional deposits, one at the end of each year for 5 years. Your first deposit will be made at the end of the first year. The money is deposited in a bank that pays 7% interest.
First, we need to calculate the final value of the first $500 that the father gave him:
FV= PV*(1+i)^n
FV= 500*(1.07)^5=
FV= 701.28
Now, we have to calculate the annual deposit required:
Difference= 5,000 - 701.28= 4,298.72
We need to use the following formula:
FV= {A*[(1+i)^n-1]}/i
A= annual deposit
Isolating A:
A= (FV*i)/{[(1+i)^n]-1}
A= (4,298.72*0.07)/[(1.07^5)-1]
A= $747.38
