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y = [x]+[x/2]+[x/4]+[x/8]+......[x/2n].... limit n tending to infinity! ...
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[x][y]=[xy] ...
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e{x}=e{y} Give the graph of this function and give the complete explanation of why this is possible! ...
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{x}={ y } ...
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y=(x3-1)/(x-1) I am giving an easy one this time because to the tougher ones no one is getting a solution ;) ...
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Draw the graph of x^3+y^3+3xy=1 This one is not very easy.. (But this is not the toughest one either) ...
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{x} = sin [x] ...
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x = y+1 This one is simple.. isnt it :) ...
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ex = 2-{y} ...
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Draw the graph for the case when n is veyr very large! xn+yn=1 ...
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[sin (x+{y})] = 1 ...
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draw the graph of y = [x]{x} greatest integer of x to the power fractional part of x ...
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{y}2+{x}2=1.5 ...
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xy = 1 ...
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(\left\{ y \right\}-1/2)^2=4\left\{x \right\} ...
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{y-1/2}2=4{x} ...
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draw graph of y2=x4-x6 ...
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(sin ( x ) + sin2 x ) (cos ( x ) + cos2 x ) > 0 ...
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y={tanx} ...
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reviving..! [1] Draw the graph of [xy]=1 [.] denotes greatest integer function. ...
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|y|=|x+ex| ...
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draw the graph of y = x+1/x-1 ...
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1) {x}{y} = {x}+{y} 2) y=cosx/cos2x (by bhargav!) ...
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y=tan(tan-1x) and y=tan-1(tan x) on the same graph.. ...
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draw the graph of y= sin [x] - cos [x] ...
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[x][y] = 256 ...
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x+y=x3+y3 I dont know the solution.. and first look i could not convince myself that i wud be albe to get a solution either ;) but then that is the fun of all mathematics isnt it ? :) btw this is a bonus question for the reas ...
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Plot the graph of {x2} = {y2} ...
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sin({x}{y})=cos({x}{y}) ...
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y= {x}{x} ...
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