if youre doing an analysis with a tlc plate and you use ethyl actete (polar) as the solvent please rank the distance that these molecules would move (aka which one would be the highest on the plate). They are the same molecule, the only thing that changes is the functional group. One has an alcohol functional group, one has a ketone, and the other has alkene functional group
In: Chemistry
Imagine that self report measure of creativity is normally distributed with a mean of μ = 40 and a standard deviation of σ = 5
1.What is the score that cuts off the highest 10% of creative people if our sample consists of n = 100 individuals?
2.What is the score that cuts off the lowest 2% of creative people if our sample consists of 36 individuals?
In: Statistics and Probability
A homeowner took out a 30-year, fixed-rate mortgage of $145,000. The mortgage was taken out 6 years ago at a rate of 8.4 percent. If the homeowner refinances, the charges will be $2,550. What is the highest interest rate at which it would be beneficial to refinance the mortgage? (Do not round intermediate calculations. Enter your answer as a percent rounded to 2 decimal places.)
In: Finance
Please type, I will rate you well. Thank you.
In Linux:
In: Computer Science
In: Accounting
A firm with a 13% WACC is evaluating two projects for this year's capital budget. After-tax cash flows, including depreciation, are as follows:
| 0 | 1 | 2 | 3 | 4 | 5 |
| Project M | -$6,000 | $2,000 | $2,000 | $2,000 | $2,000 | $2,000 |
| Project N | -$18,000 | $5,600 | $5,600 | $5,600 | $5,600 | $5,600 |
Calculate NPV for each project. Do not round intermediate calculations. Round your answers to the nearest cent.
Project M: $
Project N: $
Calculate IRR for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: %
Project N: %
Calculate MIRR for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: %
Project N: %
Calculate payback for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: years
Project N: years
Calculate discounted payback for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: years
Project N: years
Assuming the projects are independent, which one(s) would you recommend?
-Select-Only Project M would be accepted because NPV(M) > NPV(N).Only Project N would be accepted because NPV(N) > NPV(M).Both projects would be accepted since both of their NPV's are positive.Only Project M would be accepted because IRR(M) > IRR(N).Both projects would be rejected since both of their NPV's are negative.Item 11
If the projects are mutually exclusive, which would you recommend?
-Select-If the projects are mutually exclusive, the project with the highest positive NPV is chosen. Accept Project N.If the projects are mutually exclusive, the project with the highest positive IRR is chosen. Accept Project M.If the projects are mutually exclusive, the project with the highest positive MIRR is chosen. Accept Project M.If the projects are mutually exclusive, the project with the shortest Payback Period is chosen. Accept Project M.If the projects are mutually exclusive, the project with the highest positive IRR is chosen. Accept Project N.Item 12
Notice that the projects have the same cash flow timing pattern. Why is there a conflict between NPV and IRR?
In: Finance
A firm with a 13% WACC is evaluating two projects for this year's capital budget. After-tax cash flows, including depreciation, are as follows:
| 0 | 1 | 2 | 3 | 4 | 5 |
| Project M | -$15,000 | $5,000 | $5,000 | $5,000 | $5,000 | $5,000 |
| Project N | -$45,000 | $14,000 | $14,000 | $14,000 | $14,000 | $14,000 |
Calculate NPV for each project. Do not round intermediate calculations. Round your answers to the nearest cent.
Project M: $
Project N: $
Calculate IRR for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: %
Project N: %
Calculate MIRR for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: %
Project N: %
Calculate payback for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: years
Project N: years
Calculate discounted payback for each project. Do not round intermediate calculations. Round your answers to two decimal places.
Project M: years
Project N: years
Assuming the projects are independent, which one(s) would you recommend?
-Select-Only Project M would be accepted because NPV(M) > NPV(N).Only Project N would be accepted because NPV(N) > NPV(M).Both projects would be accepted since both of their NPV's are positive.Only Project M would be accepted because IRR(M) > IRR(N).Both projects would be rejected since both of their NPV's are negative.Item 11
If the projects are mutually exclusive, which would you recommend?
-Select-If the projects are mutually exclusive, the project with the highest positive NPV is chosen. Accept Project N.If the projects are mutually exclusive, the project with the highest positive IRR is chosen. Accept Project M.If the projects are mutually exclusive, the project with the highest positive MIRR is chosen. Accept Project M.If the projects are mutually exclusive, the project with the shortest Payback Period is chosen. Accept Project M.If the projects are mutually exclusive, the project with the highest positive IRR is chosen. Accept Project N.Item 12
Notice that the projects have the same cash flow timing pattern. Why is there a conflict between NPV and IRR?
In: Finance
The Walton Toy Company manufactures a line of dolls and a sewing kit. Demand for the company’s products is increasing, and management requests assistance from you in determining an economical sales and production mix for the coming year. The company has provided the following data:
| Product | Demand Next year (units) |
Selling Price per Unit |
Direct Materials |
Direct Labor |
|||
| Debbie | 70,000 | $ | 38.00 | $ | 4.70 | $ | 3.50 |
| Trish | 62,000 | $ | 4.60 | $ | 1.60 | $ | 1.00 |
| Sarah | 55,000 | $ | 31.00 | $ | 9.44 | $ | 6.50 |
| Mike | 48,000 | $ | 14.00 | $ | 4.00 | $ | 4.50 |
| Sewing kit | 345,000 | $ | 10.00 | $ | 5.20 | $ | 0.50 |
The following additional information is available:
The company’s plant has a capacity of 94,500 direct labor-hours per year on a single-shift basis. The company’s present employees and equipment can produce all five products.
The direct labor rate of $10 per hour is expected to remain unchanged during the coming year.
Fixed manufacturing costs total $585,000 per year. Variable overhead costs are $3 per direct labor-hour.
All of the company’s nonmanufacturing costs are fixed.
The company’s finished goods inventory is negligible and can be ignored.
Required:
1. How many direct labor hours are used to manufacture one unit of each of the company’s five products?
2. How much variable overhead cost is incurred to manufacture one unit of each of the company’s five products?
3. What is the contribution margin per direct labor-hour for each of the company’s five products?
4. Assuming that direct labor-hours is the company’s constraining resource, what is the highest total contribution margin that the company can earn if it makes optimal use of its constrained resource?
5. Assuming that the company has made optimal use of its 94,500 direct labor-hours, what is the highest direct labor rate per hour that Walton Toy Company would be willing to pay for additional capacity (that is, for added direct labor time)?
| Debbie | Trish | Sarah | Mike | Sewing Kit | |
| Direct labor hours per unit |
| Debbie | Trish | Sarah | Mike | Sewing Kit | |
| Variable overhead cost per unit |
| Debbie | Trish | Sarah | Mike | Sewing Kit | |
| Contribution Margin per DLH |
Highest total contribution margin
| Highest direct labor rate per hour | per hour |
In: Accounting
CAPITAL BUDGETING CRITERIA
A firm with a 13% WACC is evaluating two projects for this year's capital budget. After-tax cash flows, including depreciation, are as follows:
| 0 | 1 | 2 | 3 | 4 | 5 |
| Project M | -$12,000 | $4,000 | $4,000 | $4,000 | $4,000 | $4,000 |
| Project N | -$36,000 | $11,200 | $11,200 | $11,200 | $11,200 | $11,200 |
NPV for each project:
Project M $ 2,068.93
Project N $3,392.99
IRR for each project:
Project M 19.86%
Project N 16.80%
MIRR for each project:
Project M 16.65 %
Project N 15.05%
Calculate payback for each project. Round your answers to two
decimal places. Do not round your intermediate calculations.
Project M 3.00 years
Project N 3.21 years
Discounted payback for each project:
Project M 4.05years
Project N 4.04 years
|
Notice that the projects have the same cash flow timing pattern.
Why is there a conflict between NPV and IRR? |
In: Finance
C++ Heap Tree: Make a program called "priority_queue" that has the following operations using a heap and simulating a prioritized row of integers with higher priority value.
It has to include the following on the code:
push
Description: Add data to prioritized row
Entry: An integer, which you want to add to the prioritized row
Exit: Nothing
Precondition: n is an integer
Postcondition: The prioritized row contains new data.
pop -
Description: Remove the data with the highest priority from the prioritized row
Entry: Nothing
Exit: Nothing
Precondition: That the prioritized row contains at least 1
data.
Postcondition: The prioritized row is left without the data with
the highest priority
top
Description: Returns the value of the data that is with the highest priority in the prioritized row.
Entry: Nothing
Output: The data that has the highest priority within the
prioritized row
Precondition: That the prioritized row contains at least 1
data.
Postcondition: Nothing
empty
Description: Returns a boolean value saying if the prioritized row is empty or has data.
Entry:Nothing
Output: A boolean value that tells whether the prioritized row is
empty or has data.
Precondition: Nothing.
Postcondition: Nothing
size
Description: Returns the amount of data that the prioritized row has
Entry :Nothing
Output :An integer value representing the amount of data in the
prioritized row
Precondition: Nothing.
Postcondition: Nothing
It has to include the next class header(obligatory):
#ifndef MYHEAP_H
#define MYHEAP_H
class MyHeap{
private:
int* values; //where the HEAP values are going to be saved
int size; //Represents how many values the Heap has stored
public:
MyHeap(); //Initialize the attributes. The values attribute initializes it as an empty array size 7
void push(int
n); // Insert a value in the heap. Only when the new value does not
fit in the array
// grow the array to size 2 * n + 1. (Dynamic expansion of the
array)
// That is, if you already have the arrangement with 7 values and
you want to insert another value (The 8th)
// then the array is grown to size 15, the first 7 values of the
original array are copied
// and the 8th value is inserted.
void pop(); //A value is removed from the heap. It is never necessary to decrease the size of the array.
int top(); //Return who is the next element to exit but without deleting it
bool isEmpty(); //returns true if the heap is empty otherwise returns false
int length(); //returns how many elements the heap is storing
};
#endif
In: Computer Science