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If We Define and

Question 93

Multiple Choice

If we define If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate and If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate
As the saving rates in Countries 1 and 2, respectively, If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate
As the depreciation rates in Countries 1 and 2, respectively, and If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate
And If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate
As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker.


A) If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate ; productivity
B) If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate ; saving rate
C) If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate ; productivity
D) If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate ; productivity
E) If we define and As the saving rates in Countries 1 and 2, respectively, As the depreciation rates in Countries 1 and 2, respectively, and And As productivity in Countries 1 and 2, respectively, in the Solow model, the equation ________ predicts that ________ differences contribute the most to differences in steady-state output per worker. A) ; productivity B) ; saving rate C) ; productivity D) ; productivity E) ; saving rate ; saving rate

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