2. Use implicit differentiation to find az/ax and az/ay for yz + xlny = z² 3. Use the first principles to find f(x, y) and f₁(x, y) if f(x, y) = xy² − x²y 4. Find the differential of the function v = xze 5. Use the Chain Rule to find Əz/as and Əz/ət if z=(sin(2r + 1))(In 0), r = ²,0 = √√s² - 1² 6. Use a tree diagram to write out the Chain Rule (assume all functions are differentiable) for w= f(r,s,t) where r = r(x, y), s = s(x, y), and t = t(x, y) -z² 7. Show that the given function u(x, y, z) satisfies the 3-dimensional Laplace's partial differential equation d²u d²ud²u + + dx² dy² dz² =0 where: U= 1

Solve problem 5 with explanation please. Thank you

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2. Use implicit differentiation to find az/ax and az/ay for yz + xlny = z² 3. Use the first principles to find f(x, y) and f₁(x, y) if f(x, y) = xy² − x²y 4. Find the differential of the function v = xze 5. Use the Chain Rule to find az/as and az/ət if_z = (sin(2r + 1))(In 0), r = - -y²-2² 6. Use a tree diagram to write out the Chain Rule (assume all functions are differentiable) for w=f(r,s,t) where r=r(x, y), s = s(x, y), and t = t(x, y) =0 where: = ²,0=√√s² - 1² 7. Show that the given function u(x, y, z) satisfies the 3-dimensional Laplace's partial differential equation d²ud²ud²u + + dx² dy² dz² 1 = √x² + y² u =