Answer:
The marginal cost will most likely increase to $2.00
Answer:
D. $0.93
Explanation:
Upmove (U) = High price/current price
= 42/40
= 1.05
Down move (D) = Low price/current price
= 37/40
= 0.925
Risk neutral probability for up move
q = (e^(risk free rate*time)-D)/(U-D)
= (e^(0.02*1)-0.925)/(1.05-0.925)
= 0.76161
Put option payoff at high price (payoff H)
= Max(Strike price-High price,0)
= Max(41-42,0)
= Max(-1,0)
= 0
Put option payoff at low price (Payoff L)
= Max(Strike price-low price,0)
= Max(41-37,0)
= Max(4,0)
= 4
Price of Put option = e^(-r*t)*(q*Payoff H+(1-q)*Payoff L)
= e^(-0.02*1)*(0.761611*0+(1-0.761611)*4)
= 0.93
Therefore, The value of each option using a one-period binomial model is 0.93
Answer:
- Income = $10,000
- Adjusted Gross Income (AGI) Deduction = $0
- Claim $10,000 as itemized deduction due to expenses
Explanation:
The activity being a hubby does not exempt it from tax so the $10,000 will be included as income for tax purposes and there will be no deduction for this from the AGI.
She can however, claim her expenses as itemized deductions. There is no tax on interest payment so expenses deducted are:
= 4,000 + 6,500 - 500
= $10,000
Answer:
negative consumption externality.
Explanation:
A negative externality arises when the production or consumption of a finished product or service has negative impact (cost) on a third party.
On the other hand, a positive externality arises when the production or consumption of a finished product or service has a significant impact or benefits to a third party that isn't directly involved in the transaction.
In this scenario, your neighbor enjoys seeing the grass in his yard grow wild and free, a practice with which you disagree because it poses a danger on the people around as snakes and other poisonous animals may breed or live there.
Hence, this is an example of a negative consumption externality because it's the potential of causing you harm or endangering your life.
Answer:
Effective interest on June 30 on a 6% $60 million bond at 7% effective rate is $1,950,778
The interest is treated in the books of account thus:
Debit interest expense $1,950,778
Credit Bond account $1,950,778
Explanation:
The effective interest is computed using the below formula
Amount x Effective Rate (%) = Interest Expense
Amount=$55,736,520
Effective rate =7%/2 =3.5% semi-annually
Interest expense=$55,736,520*3.5%
Interest expense=$1,950,778
