Answer:
The minimum transfer price is $92
Explanation:
Minimum transfer price = Variable cost + Opportunity cost
= $42 + $(92-42)
= $42 + $50
= $92
Answer:
A. A panel that consists of households that provide purchasing information at specified intervals over an extended period
Explanation:
Longitudinal design in research is a method that involves repeated examination of the same variables over a short or long term to see if there is any changes that occur.
A fixed sample is measured repeatedly to gain information.
A panel that consists of households that provide purchasing information at specified intervals over an extended period, is an example of longitudinal design.
The fixed sample is the panel of households, and they repeatedly provide purchasing information.
So the same sample is measured continuously over a period of time
Answer:
$16.66
Explanation:
Data provided
Direct material = $55,870
Direct labor hour = 475
Wage rate = $11
Machine hour = $556
Number of units = 4,100
Overhead rate = $13
The preparation of job sheet is shown below:-
Direct Material $55,870
Add: Direct Labor $5,225
( 475 × $11)
Overhead $7,228
($556 × $13)
Total $68,323
Number of units 4,100
Cost per unit $16.66
($68,323 ÷ 4,100)
Answer:
The correct option is A
Explanation:
In order to reduce the bad feelings which are linked with the negative messages, one must make sure that the receiver knows the reason for the rejection and feels the news was sensitive and also believes that the matter was handled carefully and fairly.
A negative message which is insincere could be irritating, maddening and frustrating to the receiver. So, the message should not lead the reader to trust or believe.
Answer:
The price of the bond will be $879
Explanation:
Price of the bond is the present value of all cash flows of the bond. Price of the bond is calculated by following formula:
According to given data
Coupon payment = C = $1,000 x 6.2 = $62 annually = $31 semiannually
Number of periods = n = 2 x 8 years = 16 periods
Current Yield = r = 8.3% / 2 = 4.15% semiannually
Price of the Bond = $31 x [ ( 1 - ( 1 + 4.15% )^-16 ) / 4.15% ] + [ $1,000 / ( 1 + 4.15% )^16 ]
Price of the Bond = $31 x [ ( 1 - ( 1 + 0.0415)^-16 ) / 0.0415 ] + [ $1,000 / ( 1 + 0.0415 )^16 ]
Price of the Bond = $31 x [ ( 1 - ( 1.0415)^-16 ) / 0.0415 ] + [ $1,000 / ( 1.0415 )^16 ]
Price of the Bond = $521.74 + $357.26 = $879
