The limiting position of the point of intersection of the lines `3x+4y=1 and (1+c)x+3c^2 y=2` as c tends to 1, is

The limiting position of the point of intersection of the straight lines 3x+5y=1 and (2+c)x+5c^2y=1 as c tends to one is:

Find the equation of a circle which passes through the point (2,0) and whose centre is the limit of the point of intersection of the lines 3x+5y=1 and (2+c)x+5c^2y=1 as c tends to 1.

Find the equation of a circle which passes through the point (2,0) and whose centre is the limit of the point of intersection of the lines 3x+5y=1 and (2+c)x+5c^2y=1 a tends to 1 is.

Find the equation of a circle which passes through the point (2,0) and whose centre is the limit of the point of intersection of eth lines 3x+5y=1 and (2+c)x+5c^(2)y=1asc rarr1

Find the equation of a circle which passes through the point (2,0) and whose centre is the point of intersection of the lines 3x+5y=1 , (2+c)x+5c^2y=1 where limit of c tends to 1.

Find the equation of a circle which passes through the point (2,0) and whose centre is the point of intersection of the lines 3x+5y=1 , (2+c)x+5c^2y=1 where limit of c tends to 1.

Find the equation of a circle which passes through the point (2,0) and whose centre is the limit of the point of intersection of eth lines 3x+5y=1a n d(2+c)x+5c^2y=1a scvec1.

The number of integral values of m for which the x-coordinate of the point of intersection of the lines 3x+4y=9 and y=m x+1 is also an integer is 2 (b) 0 (c) 4 (d) 1

The number of integral values of m for which the x-coordinate of the point of intersection of the lines 3x+4y=9 and y=m x+1 is also an integer is (a)2 (b) 0 (c) 4 (d) 1