Answer to Question #222693 in Classical Mechanics for Haddensen

Question #222693

A car of mass 50tonnes pulls another car of mass 10tonnes, starting from rest the 2 masses attain a velocity of 20m/s in 5s. The coefficient of friction on each car equals 5N/tonne. Calculate

a) Force exerted by the engine

b) time required to cover 100m

Expert's answer

"\\text{Let}"

"m_1 = 50 t = 50000kg"

"m_2 = 10 t = 100000kg"

"v_0=0;v_1=20\\frac{m}{s};t=5s"

"\\mu = 5\\frac{N}{t}= 0.005\\frac{N}{kg}"

"F_{ex}-\\text{Force exerted by the engine}"

"F_{fr}-\\text{Friction force}"

"F = ma;F = F_{ex}-F_{fr}"

"a = \\frac{v_1-v_0}{t}= \\frac{20-0}{5}=4\\frac{m}{s^2}"

"F_{fr}= \\mu*m"

"m = m_1+m_2"

"a)"

"F_{ex}=F+F_{fr}= ma+\\mu m=200250N"

"b)"

"S = v_0t +\\frac{at^2}{2}"

"v_0 = 0"

"t =\\sqrt{\\frac{2S}{a}}=\\sqrt{\\frac{2*100}{4}}=7.07\\frac{m}{s}"

"\\text{Answer:}"

"a) F_{ex}=200250N"

"b)t =7.07\\frac{m}{s}"

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Answer to Question #222693 in Classical Mechanics for Haddensen

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