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Popular Functions & Graphing Problems
inverse of 2x+5
inverse\:2x+5
symmetry 0.00225x^2+5999.9325x+0.50625
symmetry\:0.00225x^{2}+5999.9325x+0.50625
intercepts of f(x)=2(x+2)^3
intercepts\:f(x)=2(x+2)^{3}
symmetry x^2+4x+3y+1=0
symmetry\:x^{2}+4x+3y+1=0
asymptotes of f(x)=(x^3-1)/(x^2-3x+2)
asymptotes\:f(x)=\frac{x^{3}-1}{x^{2}-3x+2}
critical f(x)=x^3-6x^2+9x+2
critical\:f(x)=x^{3}-6x^{2}+9x+2
inverse of 5x^4
inverse\:5x^{4}
asymptotes of f(x)= 1/(2x-1)
asymptotes\:f(x)=\frac{1}{2x-1}
extreme f(x)=-x^4+4x^3-4x^2-8
extreme\:f(x)=-x^{4}+4x^{3}-4x^{2}-8
intercepts of (x-3)/(x^2-4x+4)
intercepts\:\frac{x-3}{x^{2}-4x+4}
parallel y=6x-1
parallel\:y=6x-1
inflection f(x)=x-5^{1/5}
inflection\:f(x)=x-5^{\frac{1}{5}}
inverse of f(x)=((x+1))/(x-4)
inverse\:f(x)=\frac{(x+1)}{x-4}
asymptotes of f(x)=3x^2+4x+1
asymptotes\:f(x)=3x^{2}+4x+1
asymptotes of y=3cot(1/2 x)-2
asymptotes\:y=3\cot(\frac{1}{2}x)-2
perpendicular y+3= 3/4+5
perpendicular\:y+3=\frac{3}{4}+5
inverse of f(x)=sqrt(4x-4)
inverse\:f(x)=\sqrt{4x-4}
parallel y= 3/7 x-3
parallel\:y=\frac{3}{7}x-3
simplify (3.5)(-2)
simplify\:(3.5)(-2)
asymptotes of 3/(x^2+5x+6)+(x-1)/(x+2)
asymptotes\:\frac{3}{x^{2}+5x+6}+\frac{x-1}{x+2}
domain of (6x-8)/(5-x)
domain\:\frac{6x-8}{5-x}
slope ofintercept x+3y=3
slopeintercept\:x+3y=3
extreme f(x)=-(x+6)^2
extreme\:f(x)=-(x+6)^{2}
domain of f(x)=(sqrt(9-x))
domain\:f(x)=(\sqrt{9-x})
domain of cos(2p)
domain\:\cos(2p)
inflection f(x)= x/(5+x^2)
inflection\:f(x)=\frac{x}{5+x^{2}}
intercepts of x^2+10x+20
intercepts\:x^{2}+10x+20
inverse of \sqrt[3]{x+27}
inverse\:\sqrt[3]{x+27}
inverse of 1/(4a^2)
inverse\:\frac{1}{4a^{2}}
asymptotes of (x^2+2x)/(x^2-4x-5)
asymptotes\:\frac{x^{2}+2x}{x^{2}-4x-5}
intercepts of f(x)=8x+7y=56
intercepts\:f(x)=8x+7y=56
domain of f(x)=-3x^2-15x+71
domain\:f(x)=-3x^{2}-15x+71
inverse of 1/(2x^2)
inverse\:\frac{1}{2x^{2}}
domain of f(x)=(x^2+1)/(x^2-x-2)
domain\:f(x)=\frac{x^{2}+1}{x^{2}-x-2}
parity f(x)=7
parity\:f(x)=7
domain of 1/(\sqrt[4]{x^2-9x)}
domain\:\frac{1}{\sqrt[4]{x^{2}-9x}}
inverse of f(x)= x/(x-6)
inverse\:f(x)=\frac{x}{x-6}
inverse of f(x)=8-x^2
inverse\:f(x)=8-x^{2}
range of f(x)= 1/(3+e^x)
range\:f(x)=\frac{1}{3+e^{x}}
domain of f(x)=x-1
domain\:f(x)=x-1
midpoint (-1/3 , 2/3),(-11/3 ,-8/3)
midpoint\:(-\frac{1}{3},\frac{2}{3}),(-\frac{11}{3},-\frac{8}{3})
line (3,5),(-1,5)
line\:(3,5),(-1,5)
domain of f(x)=(2x+5)/(x+2)
domain\:f(x)=\frac{2x+5}{x+2}
domain of f(x)= 1/(arccos(t-2))
domain\:f(x)=\frac{1}{\arccos(t-2)}
symmetry y=9x^2
symmetry\:y=9x^{2}
inverse of f(x)=log_{5}(x+2)
inverse\:f(x)=\log_{5}(x+2)
domain of f(x)=(5x+2)/(x-3)
domain\:f(x)=\frac{5x+2}{x-3}
slope of y=-10x+14
slope\:y=-10x+14
slope of y=-13x
slope\:y=-13x
slope of 3y=2x
slope\:3y=2x
domain of f(x)=1+1/(x-1)
domain\:f(x)=1+\frac{1}{x-1}
parity f(x)=xsqrt(x^2+1)
parity\:f(x)=x\sqrt{x^{2}+1}
domain of f(x)=sin(5x)
domain\:f(x)=\sin(5x)
asymptotes of f(x)=1+log_{2}(x)
asymptotes\:f(x)=1+\log_{2}(x)
range of 2x^2+4x+3
range\:2x^{2}+4x+3
inverse of f(x)=(x-3)^2+7
inverse\:f(x)=(x-3)^{2}+7
domain of f(x)=((-x+1)/x+2)/((-x+1)/x-9)
domain\:f(x)=\frac{\frac{-x+1}{x}+2}{\frac{-x+1}{x}-9}
domain of f(t)=t^2
domain\:f(t)=t^{2}
monotone f(x)=(x+7)^3-2
monotone\:f(x)=(x+7)^{3}-2
inverse of f(x)=2x-3
inverse\:f(x)=2x-3
domain of ((8-3x+x^2))/(((x-2)(8-x)))
domain\:\frac{(8-3x+x^{2})}{((x-2)(8-x))}
distance (-2,0),(-3,4)
distance\:(-2,0),(-3,4)
range of 7x-9
range\:7x-9
shift f(x)=cos(x)
shift\:f(x)=\cos(x)
inverse of f(x)=2sqrt(x+1)
inverse\:f(x)=2\sqrt{x+1}
simplify (8.1)(4.4)
simplify\:(8.1)(4.4)
inflection (12-4x)e^x
inflection\:(12-4x)e^{x}
range of 2(3)^x
range\:2(3)^{x}
range of x^2+2
range\:x^{2}+2
domain of x^2-x+1
domain\:x^{2}-x+1
inverse of f(x)=-2/(x-2)+1
inverse\:f(x)=-\frac{2}{x-2}+1
simplify (4.1)(-1.6)
simplify\:(4.1)(-1.6)
inverse of f(x)= 8/(x^2+1)
inverse\:f(x)=\frac{8}{x^{2}+1}
intercepts of f(x)=2x^2+4x-3
intercepts\:f(x)=2x^{2}+4x-3
domain of f(x)=sqrt(t+6)
domain\:f(x)=\sqrt{t+6}
inflection-(36(x-1))/((x+3)^3)
inflection\:-\frac{36(x-1)}{(x+3)^{3}}
inverse of f(x)=7x-6
inverse\:f(x)=7x-6
simplify (1)(0.2)
simplify\:(1)(0.2)
critical f(x)=(x-6)^{2/3}
critical\:f(x)=(x-6)^{\frac{2}{3}}
intercepts of f(x)=15cos(1/2)(x+pi/2)
intercepts\:f(x)=15\cos(\frac{1}{2})(x+\frac{π}{2})
extreme f(x)=-x^3-x^2+5x-1
extreme\:f(x)=-x^{3}-x^{2}+5x-1
monotone f(x)=e^{(x^3-6x^2+8)}
monotone\:f(x)=e^{(x^{3}-6x^{2}+8)}
perpendicular y=2x-1,(1,1)
perpendicular\:y=2x-1,(1,1)
parallel y= 1/4 x
parallel\:y=\frac{1}{4}x
parity f(x)=xsqrt(x^2-1)
parity\:f(x)=x\sqrt{x^{2}-1}
range of ln(2x-1)
range\:\ln(2x-1)
inverse of f(x)=xe-x
inverse\:f(x)=xe-x
asymptotes of ((6-4x)^2)/(2x^2-5x+12)
asymptotes\:\frac{(6-4x)^{2}}{2x^{2}-5x+12}
symmetry y=x^2+6x-2
symmetry\:y=x^{2}+6x-2
inverse of y=4x+8
inverse\:y=4x+8
midpoint (1.3,9),(1.5,7)
midpoint\:(1.3,9),(1.5,7)
domain of f(x)=1-e^{x^2}
domain\:f(x)=1-e^{x^{2}}
asymptotes of (x^2+5x+4)/(x-2)
asymptotes\:\frac{x^{2}+5x+4}{x-2}
range of-4sec(x+pi/3)
range\:-4\sec(x+\frac{π}{3})
extreme f(x)=x^2-10x-200
extreme\:f(x)=x^{2}-10x-200
inverse of f(x)=((7x-6))/(2x-8)
inverse\:f(x)=\frac{(7x-6)}{2x-8}
domain of f(x)=|-x^2+2x+3|
domain\:f(x)=\left|-x^{2}+2x+3\right|
line a
line\:a
inflection f(x)=3(5-x)e^x
inflection\:f(x)=3(5-x)e^{x}
inverse of f(x)=3-3x^3
inverse\:f(x)=3-3x^{3}
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