Let `S_(1) : x^(2) + y^(2) = 25` and `S_(2) : x^(2) + y^(2) - 2x -2y - 14 = 0` be two circles.
STATEMENT-1 : `S_(1) and S_(2)` have exactly two common tangents.
and
STATEMENT-2 : If two circles touches each other internally they have one common tangent.

STATEMENT-1 : Let x^(2) + y^(2) = a^(2) and x^(2) + y^(2) - 6x - 8y -11 = 0 be two circles. If a = 5 then two common tangents are possible. and STATEMENT-2 : If two circles are intersecting then they have two common tangents.

Let S_1 -= x^2 +y^2 - a^2 = 0 and S_2 -= x^2 + y^2 - 2sqrt(2) x - 2 sqrt(2) y-a=0 be two circles. Statement 1 : The value of a for which the circles S_1 = 0 and S_2 = 0 have exactly three common tangents are 0 and 5. Statement 2 : Two circles have exactly 3 common tangents if they touch each other externally. (A) Both 1 and 2 are true and 2 is the correct explanation of 1 (B) Both 1 and 2 are true and 2 is not a correct explanation of 1 (C) 1 is true but 2 is false (D) 1 is false but 2 is true

Statement 1: Circles x^(2)+y^(2)=144 and x^(2)+y^(2)-6x-8y=0 do not have any common tangent.Statement 2: If two circles are concentric,then they do not hav common tangents.

Statement 1 : The number of common tangents to the circles x^(2) + y^(2) =4 and x^(2) + y^(2) -6x - 6y = 24 is 3. Statement 2 : If two circles touch each other externally thenit has two direct common tangents and one indirect common tangent.

If the two circles x^(2) + y^(2) =4 and x^(2) +y^(2) - 24x - 10y +a^(2) =0, a in I , have exactly two common tangents then the number of possible integral values of a is :

Let S_(1):x^(2)+y^(2)-2px-4y+1=0 and S_(2):x^(2)+y^(2)+4x-2qy-1=0 be two circles,p*q varepsilon R If S_(2)=0 bisects the circumference of the circle S_(1)=0 such that radius of the circle S_(2)=0 is least then

Statement 1 : The number of common tangents to the circles x^(2) +y^(2) -x =0 and x^(2) +y^(2) +x =0 is 3. Statement 2 : If two circles touch each other externally then it has two direct common tangents and one indirect common tangent.