Teen Streap ❲PROVEN RELEASE❳

The second object is hanging and moving downward with the same acceleration . The forces acting on it are: Gravitational force acting downward: Tension acting upward: Applying Newton's second law for the downward motion:

The solution to the problem is that the tension in the string is and the mass of the second object is 1. Identify the given values Mass of the first object ( Acceleration of the system ( Acceleration due to gravity ( We need to find the tension ( ) and the mass of the second object ( 2. Analyze the forces on the first object

m2⋅(g−a)=Tm sub 2 center dot open paren g minus a close paren equals cap T teen streap

T=0.3 kg⋅2.0 m/s2cap T equals 0.3 kg center dot 2.0 m/s squared T=0.6 Ncap T equals 0.6 N 3. Analyze the forces on the second object

m2=Tg−am sub 2 equals the fraction with numerator cap T and denominator g minus a end-fraction Substitute the values into the equation: The second object is hanging and moving downward

m2⋅g−m2⋅a=Tm sub 2 center dot g minus m sub 2 center dot a equals cap T

m2=0.610−2.0m sub 2 equals the fraction with numerator 0.6 and denominator 10 minus 2.0 end-fraction m2=0.68.0m sub 2 equals 0.6 over 8.0 end-fraction m2=0.075 kgm sub 2 equals 0.075 kg 🏁 Final Answer The tension in the string is and the mass of the second object is Analyze the forces on the first object m2⋅(g−a)=Tm

m2⋅g−T=m2⋅am sub 2 center dot g minus cap T equals m sub 2 center dot a 4. Solve for the mass of the second object Rearrange the equation to solve for