|
|
Ques 54:
We can rewrite the function here using the expansion of x^y
g= f(x,y)-1/2*f(y,y) , when x>y (its given x^y =y , when x>y)
f(x,y)- 1/2*f(x,x) , when x=y ( x^y = x, when x=y)
1/2*f(x,x) , when x<y ( x^y =x, when x<y)
Now its given f is increasing in x & y.
We will consider three cases here.
<b>CASE I x>y
Consider 3>1,
g(3,1) = f(3,1)-1/2*f(1,1)
If I increase x here and take 4>1, g(4,1) =f(4,1)-1/2*f(1,1)
g(4,1)- g(3,1) = f(4,1)- f(3,1) And this term is positive because f is increasing in x.
So g is increasing in x when x>y
If I increase y here and take 3>2
g(3,2)=f(3,2)-1/2*f(2,2)
g(3,2)-g(3,1)= [f(3,2)-f(3,1)]-1/2*(f(2,2)-f(1,1))
The sign of this term is uncertain , because the first term is positive and second is negative
So we cant say whether g is increasing/ decreasing in y, when x>y
CASE II x=y
g(x,y)= f(x,x)-1/2*f(x,x)= 1/2*f(x,x)
Here x is always equal to y.
So increasing either of them would lead to a higher f value.
If x or y is increased 1/2*f(x',y')>1/2*f(x,y) , implies
g is increasing in both x & y
CASE III when x<y
Consider 1<3
g(1,3)= 1/2*f(1,1)
If x is increased here, 2<3
g(2,3) = 1/2*f (2,2) => g(2,3)> g(1,3)
Hence, the function is increasing in x
If y is increased here, 1<4
g(1,4)= 1/2*f(1,1)
g(1,4) = g(1,3) So the function is not strictly increasing, value is not changing on increasing y
Therefore, we can conclude that g is always increasing in x, however, it may or may not be increasing in y.
Hence, part c is the answer
|
Locked
Not now but ! m sleeping