Answer:
The correct answer is option A.
Explanation:
In the time of recession expansionary policy is required to boost the economy. An expansionary fiscal policy such as a reduction in tax will be helpful. A tax cut will cause an increase in disposable income. This will cause aggregate demand to rise. Consequently, output and employment will increase.
Similarly, in times of inflation, a contractionary policy will be required to eliminate inflationary pressures. A decrease in government spending would lead to a decrease in aggregate demand. This will cause the price level to get reduced.
Thus an economist would recommend tax cuts in case of recession and reduction in government spending in case of inflation.
1 what will be produced?
2 how will it be produced?
3 how will the output society produces be distributed?
The Leroux firm can reduce the costs of regular health care without driving up the price by reduce the co-pay amounts but increase the annual deductible so that the monthly premium can stay the same.
<h3>What is a
health care insurance?</h3>
This is a health insurance that provide coverage for expenses arising from health issues.
If the firm want to reduce the costs of regular health care without driving up the price of their health care plan, then, its need to reduce the co-pay amounts but increase the annual deductible so that the monthly premium can stay the same.
Therefore, the Option B is correct.
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Answer:
$5,627
Explanation:
Price of the bond is the present value of all cash flows of the bond. These cash flows include the coupon payment and the maturity payment of the bond. Both of these cash flows discounted and added to calculate the value of the bond.
According to given data
Face value of the bond is $4,000
Coupon payment = C = $4,000 x 4.6% = $184 annually = $92 semiannually
Number of periods = n = 20 years x 2 = 40 period
Market Rate = 2.1% annually = 1.05% semiannually
Price of the bond is calculated by following formula:
Price of the Bond = C x [ ( 1 - ( 1 + r )^-n ) / r ] + [ F / ( 1 + r )^n ]
Price of the Bond = 92 x [ ( 1 - ( 1 + 1.05% )^-40 ) / 1.05% ] + [ $4,000 / ( 1 + 1.05% )^40 ]
Price of the Bond = $2,992.30 + $2,634.95
Price of the Bond = $5,627.25