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majinknight
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Hi i was wondering if someone could check to see if i did this question correctly.
The question is: For the function y=3x^2 -1/x^3
a)Determine the x-intercept(s) and y-intercept(s)
b)Determine any asymptotes
c)Find the intervals of increase and decrease
d)Final all maximums and minimums
e)Find the interval(s) where the graph is concave upward and concave downward
f)Find any points of inflection
a) when x=0, y=-1/0, so the y-intercept is not in the real number plane.
when y=0, x^2=1/3, so the x-intercepts are positive 1/square root of 3 and negitive 1/square root 3.
b)someone: x^3=0
x=0, there fore a someone asymptote at x=0.
limit as x->0 from the left -1/small negitive number= positive infinity(shoots upward).
limit as x->0 from the right -1/small positive number=negitive infinity (shoots downward).
Horizontal: lim as x->infinity from the right 3x^2/x^3 =lim as x-> infinity from the right 3/x =0.
lim as x->infinity from the left =3/x =0
Therefore there is a horizontal asymptote at y=0.
For very large positive values of x the function approaches the horizontal asymptote from above. For very "large" negitive values of x the function approaches the horizontal asymptote from below.
Slant: There is no slant asymptote.
c)d) dy/dx= 6(x^3)- (3x^2 -1)(3x^2) / x^6
=-3x^4 + 3x^2 / x^6
=-3(x^2 -1) / x^4
0=x^2 - 1
x= positive and negitive one
So when i make my chart i get that a local minimum occurs at (-1, -2) and a local maximum at (1,2). The function is increasing when -1<x<1. The function is decreasing when x<-1 and x>1.
e)f) second derivative= (-12x^3 + 6x)(x^6) - (-3x^4 +3x^2)(6x^5) / x^12
=6x^9 - 12x^7 / x^12
=6(x^2 - 2) / x^5
0=x^2 - 2
x= positive and negitive square root of 2
So when i do my chart i get that the function is concave down when x<- square root 2 or when negitive square root 2<x< square root 2. The function is concave up when x> square root two. A point of inflection is at x=square root two and y= 5/ 2 square root 2.
I hope that was not too confusing the way i put it, and if anyone can see a mistake i wouldn't very much appreciate it.
The question is: For the function y=3x^2 -1/x^3
a)Determine the x-intercept(s) and y-intercept(s)
b)Determine any asymptotes
c)Find the intervals of increase and decrease
d)Final all maximums and minimums
e)Find the interval(s) where the graph is concave upward and concave downward
f)Find any points of inflection
a) when x=0, y=-1/0, so the y-intercept is not in the real number plane.
when y=0, x^2=1/3, so the x-intercepts are positive 1/square root of 3 and negitive 1/square root 3.
b)someone: x^3=0
x=0, there fore a someone asymptote at x=0.
limit as x->0 from the left -1/small negitive number= positive infinity(shoots upward).
limit as x->0 from the right -1/small positive number=negitive infinity (shoots downward).
Horizontal: lim as x->infinity from the right 3x^2/x^3 =lim as x-> infinity from the right 3/x =0.
lim as x->infinity from the left =3/x =0
Therefore there is a horizontal asymptote at y=0.
For very large positive values of x the function approaches the horizontal asymptote from above. For very "large" negitive values of x the function approaches the horizontal asymptote from below.
Slant: There is no slant asymptote.
c)d) dy/dx= 6(x^3)- (3x^2 -1)(3x^2) / x^6
=-3x^4 + 3x^2 / x^6
=-3(x^2 -1) / x^4
0=x^2 - 1
x= positive and negitive one
So when i make my chart i get that a local minimum occurs at (-1, -2) and a local maximum at (1,2). The function is increasing when -1<x<1. The function is decreasing when x<-1 and x>1.
e)f) second derivative= (-12x^3 + 6x)(x^6) - (-3x^4 +3x^2)(6x^5) / x^12
=6x^9 - 12x^7 / x^12
=6(x^2 - 2) / x^5
0=x^2 - 2
x= positive and negitive square root of 2
So when i do my chart i get that the function is concave down when x<- square root 2 or when negitive square root 2<x< square root 2. The function is concave up when x> square root two. A point of inflection is at x=square root two and y= 5/ 2 square root 2.
I hope that was not too confusing the way i put it, and if anyone can see a mistake i wouldn't very much appreciate it.