The correct options are
A its length of transverse axis is 8 units
B its length of conjugate axis is 2√3 units
C end points of one latus rectum will be (14,2+√19) and (74,2+√19)
3y2−16x2−12y+32x−52=0
⇒3(y−2)2−16(x−1)2=48
⇒(y−2)216−(x−1)23=1 ...(1)
This equation represents a hyperbola whose centre is at (1,2)
and eccentricity
e=√1+(√3)242=√194
Here,
b2=16⇒b=4,
a2=3,⇒ a=√3.
∴ length of transverse axis =2b=8 units
and length of conjugate axis =2a=2√3 units.
Distance between the two directrices =2be=32√19 units
Coordinates of foci will be (1,2±be)=(1,2±√19)
End points of latus rectum will be
y− coordinate of latus rectum will be 2±√19
Putting value of y in eqn (1), we get
x=14,74
end points of one latus rectum will be (14,2+√19), (74,2+√19), (14,2−√19) and (74,2−√19)