1. Let r1, r2, ., xk be a collection of non-negative integers such that r1 + x2 +.. + ak = n. Find the point at which the function f(T1, T2,.., Tk) = 71T2"2.T"*, attains a maximum subject to the constraint 71 + 72 + ... + Tk = 1. 2. Given n points (a1, b1), (a2, b2), ..., (an, bn) in R², find the critical points of the function f(r, y) : E(bi – y – a;a)?. k=0 Classify the critical points you found above. 3. Without doing any calculation explain why 2na3/2 Va? – x² – y? dr dy %3D Verify the equation above by using an appropriate transformation on a and y. . 4. Using differential calculus, show that the shortest distance from the point P(r1,y1, 21) to the plane ax + by + cz +d D0 is given by Jax1+ byi +cz1 + d| Va? + b² + c² You may assume that c + 0.

Question 4

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1. Let r1, x2, ., *k be a collection of non-negative integers such that r1 + x2 + ... + *k = n. Find the point at which the function f(T1, T2, .. Tk) = T1 T22...Tk*, attains a maximum subject to the constraint 71 + 72 + ... + Tk = 1. 2. Given n points (a1, b1), (a2, b2), ..., (an, bn) in R?, find the critical points of the function f(r, y) = (bi – y – a;a)². k=0 Classify the critical points you found above. 3. Without doing any calculation explain why 2na3/2 Va? – x2 – y? dx dy x2+y? <a? 3 Verify the equation above by using an appropriate transformation on r and y. 4. Using differential calculus, show that the shortest distance from the point P(a1,y1, z1) to the plane ax + by + cz +d= 0 is given by |axı + byi + czı + d| 8 = Va? + b2 + c² You may assume that c 0.