Answer:
1. The requirements for redemption to pay death taxes are as follows:
<em>- A shareholder must die.</em>
<em>- Value of stock of 1 corporation must exceed 35% value of adjusted gross estate.</em>
<em>- Stock of 2 or more companies exceeds 35%of adjusted gross estate if interest in both companies was greater than 20%.</em>
<em>- Redemption limited to sum of death taxes, funeral expenses and estate legal costs.</em>
<em>- Stock attribution rules do not apply.</em>
<em />
2. The shareholders has no tax consequences as he has died. he heir to the shareholders have little or no tax consequences as the redeemed shares hold a fair market value on the date of death.
Answer:
The correct answer is D. perfectly elastic labor supply curve and a downsloping labor demand curve.
Explanation:
The basis of the model is the assumption that no player in the market is large or strong enough to be able to control the industry. There are many buyers and sellers, and each one is small. Companies can sell any amount of production at market prices. Companies in this form of market face a horizontal demand curve, and all companies produce a homogeneous product.
A large number of small sellers and buyers exist in this type of market. No entity is so powerful that it can change the face or direction of the industry. No company can produce any control over the price or quantity of the product. Although each company increase or decrease prices and production, the industry as a whole remains unchanged.
Answer:
Contribution margin per machine hour for bread machines = $320
Explanation:
From the question, the following can be deduced:
Selling price Variable costs Contribution/unit
Toaster Ovens $100 $60 $40
Bread machines $140 $60 $80
In each machine hour, six toaster ovens per machine hour and four bread machines are manufactured
Total contribution margin per machine hour = 6*40+4*80 =$560
Of which contribution margin per machine hour for bread machines = 4*80=$320
Answer:
They should operate Mine 1 for 1 hour and Mine 2 for 3 hours to meet the contractual obligations and minimize cost.
Explanation:
The formulation of the linear programming is:
Objective function:
Restrictions:
- High-grade ore: 
- Medium-grade ore: 
- Low-grade ore: 
- No negative hours: 
We start graphing the restrictions in a M1-M2 plane.
In the figure attached, we have the feasible region, where all the restrictions are validated, and the four points of intersection of 2 restrictions.
In one of this four points lies the minimum cost.
Graphically, we can graph the cost function over this feasible region, with different cost levels. When the line cost intersects one of the four points with the lowest level of cost, this is the optimum combination.
(NOTE: it is best to start with a low guessing of the cost and going up until it reaches one point in the feasible region).
The solution is for the point (M1=1, M2=3), with a cost of C=$680.
The cost function graph is attached.
Based on the amount that Jim deposited and the interest paid per year on the account, withdrawing in two equal amounts would require an amount of <u>$530 per year. </u>
<h3>How much should Jim withdraw per year?</h3><h3 />
Assuming the amount that can be withdrawn is x, the relevant formula would be:
(1,040 - x) x 104 = 100x
Solving for x gives:
108,160 - 104x = 100x
108,160 = 100x + 104x
108,160 = 204x
x = 108,160 / 204
= $530
Find out more on future value at brainly.com/question/16180669.
