Blocks 1 and 2 with masses m1 and m2, respectively, are moving with a constant acceleration. If Ѳ is equal to 90 degrees, for what value m1 would the acceleration of the two blocks be equal to zero? a. m1 < m2 b. m1 > m2 c. m1 = m2 d. m1 = the tension in the string and the sum of the x-components of the forces acting on block 2 is a. T – m2gsinθ b. T – m2gcosθ c. T – m1gcosθ d. T – m2g
Blocks 1 and 2 with masses m1 and m2, respectively, are moving with a constant acceleration. If Ѳ is equal to 90 degrees, for what value m1 would the acceleration of the two blocks be equal to zero? a. m1 < m2 b. m1 > m2 c. m1 = m2 d. m1 = the tension in the string and the sum of the x-components of the forces acting on block 2 is a. T – m2gsinθ b. T – m2gcosθ c. T – m1gcosθ d. T – m2g
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Blocks 1 and 2 with masses m1 and m2, respectively, are moving with a constant acceleration.
If Ѳ is equal to 90 degrees, for what value m1 would the acceleration of the two blocks be equal to zero?
a. m1 < m2
b. m1 > m2
c. m1 = m2
d. m1 = the tension in the string
and the sum of the x-components of the forces acting on block 2 is
a. T – m2gsinθ
b. T – m2gcosθ
c. T – m1gcosθ
d. T – m2g
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