The number of roots of `x^2-2=[sinx],w h e r e[dot]` stands for the greatest integer function is 0 (b) 1 (c) 2 (d) 3.

The number of roots of x^(2)-2=[sin x], where [.] stands for the greatest integer function is 0(b)1(c)2(d)3 .

Evaluate: int_0^(2pi)[sinx]dx ,w h e r e[dot] denotes the greatest integer function.

Evaluate: int_0^(2pi)[sinx]dx ,w h e r e[x] denotes the greatest integer function.

Evaluate: int_0^2[x^2-x+1]dx ,w h e r e[dot] denotos the greatest integer function.

Evaluate: int_0^2[x^2-x+1]dx ,w h e r e[dot] denotos the greatest integer function.

Evaluate: int_0^2[x^2-x+1]dx ,w h e r e[dot] denotos the greatest integer function.

Evaluate: int_0^2[x^2-x+1]dx ,w h e r e[dot] denotos the greatest integer function.

Prove that int_0^oo[cot^(-1)x]dx ,w h e r e[dot] denotes the greatest integer function.

The value of int_0^(2pi)[2sinx]dx ,w h e r e[dot] represents the greatest integral function, is (a) (-5pi)/3 (b) -pi (c) (5pi)/3 (d) -2pi

The value of int_0^(2pi)[2sinx]dx ,w h e r e[dot] represents the greatest integral function, is (a) (-5pi)/3 (b) -pi (c) (5pi)/3 (d) -2pi