Respuesta :
Answer:
a) d(x)=[tex]\sqrt{17x^{2} -12x+5}[/tex]
b)d'(x)=[tex]\frac{17x-6}{\sqrt{17x^{2} -12x+5} }[/tex]
c)The critical point is x=[tex]\frac{6}{17}[/tex]
d)Closest point is ([tex]\frac{6}{17}[/tex],[tex]\frac{7}{17}[/tex]
Step-by-step explanation:
We are given the line
[tex]y=4x-1[/tex]
Let a point Q([tex]x,y[/tex]) lie on the line.
Point P is given as P(2,0)
By distance formula, we have the distance D between any two points
A([tex]x_{1},y_{1}[/tex]) and B([tex]x_{2},y_{2}[/tex]) as
D=[tex]\sqrt{(x_{1}-x_{2})^2 + (y_{1}-y_2)^2}[/tex]
Thus,
d(x)=[tex]\sqrt{(x-2)^2+(y-0)^2}[/tex]
But we have, [tex]y=4x-1[/tex]
So,
d(x)=[tex]\sqrt{(x-2)^2+(4x-1)^2}[/tex]
Expanding,
d(x)=[tex]\sqrt{17x^2-12x+5}[/tex] - - - (a)
Now,
d'(x)= [tex]\frac{\frac{d}{dx} (17x^2-12x+5)}{2(\sqrt{17x^2-12x+5}) }[/tex]
i.e.
d'(x)=[tex]\frac{17x-6}{\sqrt{17x^{2} -12x+5} }[/tex] - - - (b)
Now, the critical point is where d'(x)=0
⇒ [tex]\frac{17x-6}{\sqrt{17x^{2} -12x+5} }[/tex] =0
⇒[tex]x=\frac{6}{17}[/tex] - - - (c)
Now,
The closest point on the given line to point P is the one for which d(x) is minimum i.e. d'(x)=0
⇒[tex]x=\frac{6}{17}[/tex]
as [tex]y=4x-1[/tex]
⇒y=[tex]\frac{7}{17}[/tex]
So, closest point is ([tex]\frac{6}{17},\frac{7}{17}[/tex]) - - -(d)
