A machine costing $210,200 with a four-year life and an estimated $19,000 salvage value is installed in Luther Company’s factory on January 1. The factory manager estimates the machine will produce 478,000 units of product during its life. It actually produces the following units: 121,800 in Year 1, 122,400 in Year 2, 119,600 in Year 3, 124,200 in Year 4. The total number of units produced by the end of Year 4 exceeds the original estimate—this difference was not predicted. (The machine cannot be depreciated below its estimated salvage value.) Required: Compute depreciation for each year (and total depreciation of all years combined) for the machine under each depreciation method. (Round your per unit depreciation to 2 decimal places. Round your answers to the nearest whole dollar.) ompute depreciation for each year (and total depreciation of all years combined) for the machine under the Double-declining-balance. DDB Depreciation for the Period End of Period
A machine costing $210,200 with a four-year life and an estimated $19,000 salvage value is installed in Luther Company’s factory on January 1. The factory manager estimates the machine will produce 478,000 units of product during its life. It actually produces the following units: 121,800 in Year 1, 122,400 in Year 2, 119,600 in Year 3, 124,200 in Year 4. The total number of units produced by the end of Year 4 exceeds the original estimate—this difference was not predicted. (The machine cannot be
Required:
Compute depreciation for each year (and total depreciation of all years combined) for the machine under each depreciation method. (Round your per unit depreciation to 2 decimal places. Round your answers to the nearest whole dollar.)
ompute depreciation for each year (and total depreciation of all years combined) for the machine under the Double-declining-balance.
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