Answer to Question #213896 in Classical Mechanics for Chintha

Given,

Mass of the blocks are "M" and "m" ,

Side length of the cube "= a"

Coefficient of dynamic friction between each surface "= \\mu"

Initial velocity of the bottom wedge "=u"

Normal reaction on the lower block "=(m+M)g"

Normal reaction on the upper block "=Mg"

So, As the systems are moving with velocity u, it means net force on the blocks are zero.

"\\Rightarrow f_s -F = 0"

Now, substituting the values,

"\\Rightarrow \\mu(m+M)g=F"

Let the acceleration of the upper block be A

So, "F-f_{s1}=MA"

Now, substituting the values,

"\\Rightarrow \\mu(m+M)g-\\mu Mg= MA"

"\\Rightarrow A = \\frac{\\mu(m+M)g-\\mu Mg}{M}"

Hence,

"v^2=u^2-2as"

Final velocity of the upper block "(v)=0"

"0=u^2-2\\frac{(\\mu(m+M)g-\\mu Mg)}{M} s"

Hence, "s=\\frac{u^2}{2\\frac{\\mu(m+M)g-\\mu Mg}{M}}"

"\\Rightarrow s = \\frac{u^2 M}{2(\\mu (m+M)g-\\mu Mg)}"