Deck 5: The Solow Growth Model

A) $\Delta K _ { t } = I _ { t } - \bar { d } K _ { t }$
B) $K _ { t + 1 } = K _ { t } + I _ { t } - \bar { d } K _ { t }$
C) $K _ { t + 1 } = K _ { t } + I _ { t } + \bar { d } K _ { t }$
D) $K _ { t + 1 } = K _ { t } + d K _ { t } - I _ { t }$
E) $K _ { t } + I _ { t } = K _ { t + 1 }$

A) $\Delta K _ { 0 } = 35$
B) $\Delta K _ { 0 } = - 15$
C) $\Delta K _ { 0 } = 15$
D) $\Delta K _ { 0 } = 0$
E) $\Delta K _ { 0 } = 115$

A) less than; grows
B) greater than; grows
C) greater than; declines
D) equal to; declines
E) equal to; grows

A) how saving rates are determined
B) the static relationship between capital and output
C) how savings, population growth, and technological change affect output over time
D) how savings, population growth, and technological change affect output in a single period
E) what constitutes technological change

A) future output, which grows over time
B) lower consumption in the future
C) future output, which declines over time
D) higher consumption today
E) technological change

A) the depreciation rate is negative
B) net investment is always positive
C) TFP equals one
D) labor is exogenous
E) the saving rate changes frequently

A) lower than; this situation had reversed
B) lower than; per capita income was equal in both countries
C) equal to; South Korea had relatively higher per capita income
D) higher than; this situation had reversed
E) higher than; this difference was even more pronounced

A) Y_t = C_t $\times$ I_t
B) $Y _ { t } = C _ { t } + I _ { t }$
C) $Y _ { t } = \bar { A } K _ { t } ^ { 1 / 3 } L _ { t } ^ { 2 / 3 }$
D) $\Delta K _ { t } = I _ { t } - \bar { d } K _ { t }$
E) None of these answers are correct.

A) endogenizes labor
B) endogenizes physical capital
C) exogenizes physical capital
D) exogenizes investment
E) endogenizes investment

A) increasing
B) constant
C) decreasing
D) undetermined
E) None of these answers are correct.

A) $Y _ { t } = \bar { A } \left( K ^ { 1 / 3 } + L ^ { 2 / 3 } \right)$
B) $Y _ { t } = \bar { A } K _ { t } ^ { 2 / 3 } L _ { t } ^ { 2 / 3 }$
C) $Y _ { t } = \bar { A } K _ { t } ^ { 1 / 3 } L _ { t } ^ { 2 / 3 }$
D) $Y _ { t } = \bar { A } ( 1 / 3 ) K _ { t } \times ( 2 / 3 ) L _ { t }$
E) $Y _ { t } = \bar { A } ( 1 / 3 ) K _ { t } + ( 2 / 3 ) L _ { t }$

A) saving rates are determined in a particular manner
B) savings have no impact on economic growth
C) capital depreciation enhances economic growth
D) the relationship between capital and output is static
E) capital accumulation contributes to economic growth

A) $I _ { t } = ( 1 - \bar { s } )$
B) $I _ { t } = \bar { s } Y _ { t }$
C) $I _ { t } = ( 1 - \bar { s } ) C _ { t }$
D) $I _ { t } = \bar { s } Y _ { t } - C _ { t }$
E) $l _ { t } = ( 1 - \bar { s } ) Y _ { t }$

A) only investment
B) either saving or depreciation
C) only consumption
D) either consumption or investment
E) tax revenue

A) $3,200; over $26,000
B) $10,000; $15,000
C) half that in the United States; twice that in the United States
D) $100; $200
E) $35,000; the same

A) is saved; reduces
B) depreciates; adds to
C) is saved; adds to
D) is consumed; adds to
E) is consumed; reduces

A) investment; less than one
B) the depreciation rate; equal to zero
C) consumption; greater than one
D) the depreciation rate; less than one
E) investment; greater than one

A) $C _ { t } = \bar { s } I _ { t }$
B) $C _ { t } = ( 1 - \bar { s } )$
C) $C _ { t } = ( 1 - \bar { s } ) Y _ { t }$
D) $C _ { t } = ( 1 - \bar { s } ) Y _ { t } - I _ { t }$
E) $C _ { z } = \bar { s } Y _ { t }$

A) declines
B) stays the same
C) grows
D) Not enough information is given.
E) None of these answers are correct.

A) the saving rate
B) zero
C) the depreciation rate
D) the productivity growth rate
E) the population growth rate

A) $I _ { t } = \bar { s } / \left[ F \left( K _ { t } , \bar { L } \right) \right]$
B) $l _ { t } = \bar { s } F \left( K _ { t } , \bar { L } \right)$
C) $I _ { t } = ( 1 - \bar { s } ) [ F ( K , \bar { L } ) ]$
D) $I _ { t } = \bar { s } - F \left( K _ { t } , \bar { L } \right)$
E) $I _ { t } = \bar { s } + F \left( K _ { t } , \bar { L } \right)$

A) stock
B) flow
C) final good
D) intermediate good
E) None of these answers are correct.

A) negative; will grow
B) positive; is in its steady state
C) zero; is in its steady state
D) positive; will grow
E) negative; will contract

A) decrease; grow
B) increase; grow
C) stay constant; be in its steady state
D) stay constant; shrink
E) stay constant; grow

A) productivity
B) consumption
C) real interest rates
D) savings rate
E) depreciation

A) productivity
B) depreciation rate
C) saving rate
D) the initial capital stock
E) All of these answers are correct.

A) zero
B) constant
C) decreasing as income increases
D) increasing as income increases
E) larger as the interest rate rises

A) flow; stock
B) stock; flow
C) final good; intermediate good
D) intermediate good; final good
E) None of these answers are correct.

A) contracting
B) growing
C) at the steady state
D) in its short-run equilibrium
E) None of these answers are correct.

A) the capital stock is constant
B) the number of workers is growing
C) the number of workers is constant
D) the saving rate changes each period
E) the depreciation rate changes each period

A) $\Delta K _ { t } = \bar { s } F \left( K _ { t } , \bar { L } \right) + \bar { d } K _ { t }$
B) $\Delta K _ { t } = \bar { s } F \left( K _ { t } , \bar { L } \right) - \bar { d } K _ { t }$
C) $\Delta K _ { t } = \bar { d } F \left( K _ { t } , \bar { L } \right) - \bar { s } K _ { t }$
D) $\Delta K _ { t } = \bar { s } F \left( K _ { t } , \bar { L } \right) / \bar { d } K _ { t }$
E) $\Delta K _ { t } = F \left( K _ { t } , \bar { L } \right) - K _ { t }$

A) capital accumulation is zero
B) capital accumulation is negative
C) capital accumulation is positive
D) savings are negative
E) Not enough information is given.

A) contracting
B) at the steady state
C) growing
D) in its short-run equilibrium
E) None of these answers are correct.

A) the saving rate is too low
B) the saving rate is too high
C) the depreciation rate is too low
D) gross investment is higher than capital depreciation
E) gross investment is lower than capital depreciation

A) saving
B) investment
C) net investment
D) the capital stock
E) depreciation

A) increase; grow
B) decrease; shrink
C) stay constant; be in its steady state
D) decrease; be in its steady state
E) stay constant; shrink

A) decrease; grow
B) increase; grow
C) stay constant; shrink
D) decrease; shrink
E) stay constant; grow

A) the capital stock, labor, and output
B) consumption, investment, the capital stock, labor, and the saving rate
C) consumption, investment, the capital stock, labor, and output
D) productivity and the depreciation and saving rates
E) the capital stock, labor, output, and the saving rate

A) investment plus capital depreciation
B) investment minus capital depreciation
C) the saving rate minus the depreciation rate
D) the saving rate plus the depreciation rate
E) None of these answers are correct.

A) the saving rate; the depreciation rate
B) the saving rate; productivity
C) productivity; the initial capital stock
D) the depreciation rate; the labor stock
E) None of these answers are correct.

A) the same steady-state level of output as it would have before the disaster
B) a higher steady-state level of output than it would have before the disaster
C) a lower steady-state level of output than it would have before the disaster
D) Not enough information is given.
E) None of these answers are correct.

A) will continue to grow
B) is also in the steady state
C) will continue to grow, but its rate of growth will slow down
D) will decline, but its rate of growth will be positive
E) will begin to contract

A) output; investment
B) net investment; consumption
C) gross investment; consumption
D) output; consumption
E) depreciation; gross investment

A) productivity; saving rate
B) the saving rate; initial capital stock
C) the saving rate; depreciation rate
D) the initial capital stock; saving rate
E) None of these answers are correct.

A) $y ^ { * } = \bar { A } \left( \frac { \bar { s } } { \bar { d } } \right) ^ { 1 / 2 }$
B) $$y ^ { * } = \bar { A } ^ { 3 / 2 } \left( \frac { \bar { d } } { \bar { s } } \right) ^ { 1 / 2 } \bar { L }$$
C) $y ^ { * } = \bar { A } ^ { 3 / 2 } \left( \frac { \bar { s } } { \bar { d } } \right) ^ { 1 / 2 } \bar { L }$
D) $y ^ { * } = \bar { A } ^ { 3 / 2 } \left( \frac { \bar { s } } { \bar { d } } \right) ^ { 1 / 2 }$
E) $y ^ { * } = \bar { A } \left( \frac { \bar { s } } { \bar { d } } \right) ^ { 1 / 3 }$

A) 0.3
B) 1.3
C) 2.8
D) 0.8
E) 1.6

A) productivity and the initial capital stock
B) the initial capital stock, productivity, and the saving rate
C) the initial capital stock, productivity, and the depreciation rate
D) the labor stock and the steady-state level of capital stock
E) productivity, the depreciation rate, the labor stock, and the saving rate

A) the endogenous level of the capital stock itself depends on productivity
B) there is no productivity parameter in the standard production function model
C) the productivity measure is zero in the standard production function model
D) the productivity measure is negative in the Solow model
E) the exogenous level of the capital stock itself depends on productivity

A) positive; growing; positive
B) zero; in the steady state; zero
C) negative; growing; positive
D) zero; in the steady state; positive
E) zero; contracting; negative

A) 8.0
B) 4.0
C) 45.4
D) 2.0
E) 22.6

A) Investment is not represented.
B) a
C) c $\rightarrow$ d
D) a $\rightarrow$ b
E) b

A) saving rate
B) short-run equilibrium
C) steady state
D) the rate of capital accumulation
E) dynamic system

A) the saving rate; the depreciation rate
B) the saving rate; productivity
C) productivity; the initial capital stock
D) the depreciation rate; the labor stock
E) None of these answers are correct.

A) productivity and the initial capital stock
B) the initial capital stock, productivity, and the saving rate
C) the initial capital stock, productivity, and the depreciation rate
D) the initial capital stock and the steady-state level of capital stock
E) productivity, the depreciation rate, and the saving rate

A) zero
B) increasing
C) decreasing
D) constant
E) None of these answers are correct.

A) labor supply; larger
B) productivity parameter; larger
C) capital stock; larger
D) capital stock; smaller
E) productivity parameter; smaller

A) a $\rightarrow$ b
B) c $\rightarrow$ a
C) Consumption is not represented.
D) b
E) a $\rightarrow$ d

A) 1.4
B) 4.0
C) 2.0
D) 8.0
E) 3.5

A) 0.1
B) 2.5
C) 1.6
D) 8.0
E) 0.6

A) the growth rate gradually increases
B) the growth rate gradually declines
C) the growth rate is constant
D) the growth rate is negative
E) None of these answers are correct.

A) moves from a relatively low steady state to one that is lower
B) moves from a relatively low steady state to one that is higher
C) moves from a relatively high steady state to one that is lower
D) stays at a constant high steady state
E) stays at a constant low steady state

A) Brazil has a higher level of output than Portugal
B) Brazil has a higher capital-output ratio than Portugal
C) Portugal has a higher level of output than Brazil
D) Portugal has a higher capital-output ratio than Brazil
E) Portugal and Brazil have the same capital-output ratio

A) the steady-state capital stock
B) the initial capital stock and saving rates
C) differences in productivity and saving rates
D) the labor stock and saving rates
E) None of these answers are correct.

A) long-term growth continues indefinitely
B) long-term growth does not continue
C) long-term growth accelerates
D) long-term growth decelerates
E) None of these answers are correct.

A) Capital accumulation cannot serve as the engine of long-run per capita economic growth.
B) Capital accumulation is the only engine of long-run per capita economic growth.
C) Consumption is the only engine of short-run per capita economic growth.
D) Saving rates serve as the engine of long-run per capita economic growth.
E) The initial capital stock plays a large part in long-run economic growth.

A) a higher; a higher
B) a higher; the same
C) a lower; a higher
D) a higher; a lower
E) the same; the same

A) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { A } _ { 1 } } { \bar { A } _ { 2 } } \right) ^ { 3 / 2 }$ ; productivity differences
B) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { A } _ { 1 } } { \bar { A } _ { 2 } } \right) ^ { 3 / 2 } \times \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 1 / 2 }$ ; saving rate differences
C) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 3 / 2 } \times \left( \frac { \bar { A } _ { 1 } } { \bar { A } _ { 2 } } \right) ^ { 1 / 2 }$ ; productivity differences
D) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { A } _ { 1 } } { \bar { A } _ { 2 } } \right) ^ { 3 / 2 } \times \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 1 / 2 }$ ; productivity differences
E) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 1 / 2 }$ ; saving rate differences

A) the Solow model endogenizes the process of capital accumulation
B) the standard model endogenizes the process of capital accumulation
C) the Solow model uses different values for the capital share
D) the Solow model does not contain a productivity measure
E) the Solow model exogenizes the process of capital accumulation

A) the lack of productivity
B) increasing returns to capital in production
C) constant returns to capital in production
D) diminishing returns to capital in production
E) increasing returns to labor in production

A) per capita consumption is constant
B) per capita output is constant, but per capita capital is not
C) per capita capital is variable
D) per capita consumption continues to grow
E) per capita consumption is growing

A) i
B) ii
C) iii
D) i and ii
E) i, ii, and iii

A) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { A } _ { 1 } } { \bar { A } _ { 2 } } \right) ^ { 3 / 2 } \times \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 1 / 2 }$
B) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { d } _ { 1 } } { \overline { d _ { 2 } } } \right) ^ { 3 / 2 } \times \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 1 / 2 }$
C) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 3 / 2 } \times \left( \frac { \bar { A } _ { 1 } } { \bar { A } _ { 2 } } \right) ^ { 1 / 3 }$
D) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { d } _ { 1 } } { \bar { d } _ { 2 } } \right) ^ { 3 / 2 }$
E) $\frac { y _ { 1 } ^ { * } } { y _ { 2 } ^ { * } } = \left( \frac { \bar { s } _ { 1 } } { \bar { s } _ { 2 } } \right) ^ { 1 / 2 }$

A) lead output to grow in the medium run; diminishing returns to capital
B) lead output to grow in the long run; increasing returns to capital
C) lead output to grow in the medium run; increasing returns to capital
D) not lead output to grow in the medium run; diminishing returns to capital
E) not lead output to grow in the long run; increasing returns to capital

A) there is no steady state in output per person
B) the economy never settles down to a steady state and exhibits growth in output per person
C) the economy eventually settles down to a steady state in output per person
D) the economy eventually settles down to a steady state with no growth in aggregate output
E) None of these answers are correct.

A) the steady-state level of output and capital to rise
B) the steady-state level of output to rise and capital to fall
C) the steady-state level of output and capital to fall
D) the steady-state level of output and capital to remain constant
E) the steady-state level of output to rise and capital to remain constant

A) Population growth can produce growth in the Solow model in the aggregate but not in output per person.
B) Total capital and production per worker can grow as the population of the economy grows.
C) It never does-only capital contributes to aggregate economic growth.
D) Population growth can produce growth in the Solow model in the aggregate and in output per person.
E) Population growth increases output per person but not aggregate output.

A) move from point a to point b
B) move from point c to point a
C) move from point c to point b
D) move from point a to point c
E) stay at point b

A) 2; lower
B) 1; higher
C) 2; higher
D) 1; lower
E) Not enough information is given.

A) low labor-output ratio
B) low capital-output ratio
C) high capital-output ratio
D) high depreciation rate
E) a high $\bar { A }$