Question 1. Answer the following: A. When the price =30000-400(Demand) and the variable cost-$3500 per unit, the value of demand that maximize the profit =......... B. The installation cost of a machine is $6000 with estimated life of 12 years and selvage value of $2000 at the end of the 12th year. What will be the annual depreciation cost in the fourth year (using straight line method)? C. Suppose that the initial cost of a certain operation is $120000 at the beginning of the first year. The expenditures are expected to be ($1000) at the end of the first year, $500 at the end of second year, and to increase by $1000 at the end of each of the next 4 years. The salvage value at the end of the 8th year is $2500. Draw the cash flow diagram.
Question 1. Answer the following: A. When the price =30000-400(Demand) and the variable cost-$3500 per unit, the value of demand that maximize the profit =......... B. The installation cost of a machine is $6000 with estimated life of 12 years and selvage value of $2000 at the end of the 12th year. What will be the annual depreciation cost in the fourth year (using straight line method)? C. Suppose that the initial cost of a certain operation is $120000 at the beginning of the first year. The expenditures are expected to be ($1000) at the end of the first year, $500 at the end of second year, and to increase by $1000 at the end of each of the next 4 years. The salvage value at the end of the 8th year is $2500. Draw the cash flow diagram.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Question 1. Answer the following:
A. When the price =30000-400(Demand) and the variable cost-$3500 per unit, the value of
demand that maximize the profit =.........
B. The installation cost of a machine is $6000 with estimated life of 12 years and selvage
value of $2000 at the end of the 12th year. What will be the annual depreciation cost in the
fourth year (using straight line method)?
C. Suppose that the initial cost of a certain operation is $120000 at the beginning of the first
year. The expenditures are expected to be ($1000) at the end of the first year, $500 at the
end of second year, and to increase by $1000 at the end of each of the next 4 years. The
salvage value at the end of the 8th year is $2500. Draw the cash flow diagram.
D. The Present worth (PW) of six annual payment of $6000 paid at the end of the each of the
six years with interest rate of %12 compounded quarterly is....
E. The Future worth at the end of the 4 years (FW4) of the four $2000 annual payment paid at
the beginning of each of the 4 years (shown in Figurel) with interest rate of %10
compounded annually is.
0
2
3
Figure 1
$2,000 $2,000 $2,000 $2,000](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F55408069-17cb-454b-9369-43af749c37e2%2F4fc583e1-7e2c-420f-91bf-ea64df1561f3%2Fjsjywr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question 1. Answer the following:
A. When the price =30000-400(Demand) and the variable cost-$3500 per unit, the value of
demand that maximize the profit =.........
B. The installation cost of a machine is $6000 with estimated life of 12 years and selvage
value of $2000 at the end of the 12th year. What will be the annual depreciation cost in the
fourth year (using straight line method)?
C. Suppose that the initial cost of a certain operation is $120000 at the beginning of the first
year. The expenditures are expected to be ($1000) at the end of the first year, $500 at the
end of second year, and to increase by $1000 at the end of each of the next 4 years. The
salvage value at the end of the 8th year is $2500. Draw the cash flow diagram.
D. The Present worth (PW) of six annual payment of $6000 paid at the end of the each of the
six years with interest rate of %12 compounded quarterly is....
E. The Future worth at the end of the 4 years (FW4) of the four $2000 annual payment paid at
the beginning of each of the 4 years (shown in Figurel) with interest rate of %10
compounded annually is.
0
2
3
Figure 1
$2,000 $2,000 $2,000 $2,000
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