For each `x in R`, let [x]be the greatest integer less than or equal to x. Then `lim_(xto1^+) (x([x]+absx)sin[x])/absx` is equal to

For each x in R , let [x] be the greatest integer less than or equal to x, Then, lim_( x to 0^(-)) ( x ([x] + | x| ) sin [x]) / ([x]) is equal to

Let [x] denote the greatest integer less than or equal to x . Then, int_(1)^(-1)[x]dx=?

For each t in R ,let[t]be the greatest integer less than or equal to t. Then lim_(xto1^+)((1-absx+sinabs(1-x))sin(pi/2[1-x]))/(abs(1-x)[1-x])

Let [x] denote the greatest integer less than or equal to x . Then, int_(0)^(1.5)[x]dx=?

let [x] denote the greatest integer less than or equal to x. Then lim_(xto0) (tan(pisin^2x)+(abs.x-sin(x[x]))^2)/x^2

if [x] denotes the greatest integer less than or equal to x, than lim_(xrarr0)(x[x])/(sin|x|) , is

For each t in RR, let [t] be the greatest integer less than or equal to t. Then, lim_(x rarr 1+) ((1-|x|+sin|1-x|)sin(pi/2[1-x]))/(|1-x|[1-x])

If [x] be the greatest integer less than or equal to x then sum_(n=8)^(100) [ ((-1)^n n)/(2)] is equal to :

Let f(x)=[x^(2)+1],([x] is the greatest integer less than or equal to x) . Ther

Let [x] denotes the greatest integer less than or equal to x and f(x)= [tan^(2)x] .Then