B/
I think it’s attributes
Answer:
B. $ 17 comma 100
Explanation:
The movements in inventory account is usually as a result of purchases, sales, returns etc. These are the factors that bring about a difference between the opening and closing balances in the inventory account.
Given that
Beginning Finished Goods Inventory = $14000
Ending Finished Goods Inventory = $14500
Cost of Goods Manufactured = $17600
Sales revenue = $15000
Let the cost of goods sold be B
$14000 + $17600 - B = $14500
B = $14000 + $17600 - $14500
B = $17100
The cost of goods sold is $17100
Answer: See explanation
Explanation:
The flotation cost adjustment that must be added to its cost of retained earnings will be calculated thus:
= Expected dividend / [Current price × (1 - Floatation cost)] + Expected growth rate
= 2.00/[20.00 × (1 - 4.5%)] + 4.2%
= 2.00 /[20.00 × (1 - 0.045)] + 0.042
= 2.00 / (20.00 × 0.955) + 0.042
= (2.00/19.10) + 0.042
= 0.104712 + 0.042
= 0.146712
New cost of equity = 14.67%
You didn't give the cost of equity calculated without the flotation adjustment. Let's assume that this is maybe 11%, the floatation on adjustment factor = 14.67% - 11% = 3.67%
Answer: Capital investment in new machinery
Capital investment in new machinery enables a company to produce more over a given period of time as compared to the old machine.
It also helps the company to take advantage of new orders in the markets and helps it increase its share in catering to the demand for its products
Answer:
The price of King Noodles' bonds is $970.66
Explanation:
Coupon payment = 1000 x 7.5% = $75 per year = 75/4 = 18.75 per quarter
Number of periods = n = 8 years x 4 quarter each year = 32 quarter
Yield to maturity = 8% per year = 8% / 4 = 2% per quarter
Price of bond is the present value of future cash flows, to calculate Price of the bond use following formula:
Price of the Bond = $18.75 x [ ( 1 - ( 1 + r )^-n ) / r ] + [ F / ( 1 + r )^n ]
Price of the Bond =$18.75 x [ ( 1 - ( 1 + 2% )^-32 ) / 2% ] + [ $1,000 / ( 1 + 2% )^32 ]
Price of the Bond = $18.75 x [ ( 1 - ( 1.02 )^-32 ) / 0.02 ] + [ $1,000 / ( 1.02 )^32 ]
Price of the Bond = $440.03 + $530.63
Price of the Bond = $970.66
