Home
Class 12
MATHS
Let each of the circles S(1)-=x^(2)+y^...

Let each of the circles
`S_(1)-=x^(2)+y^(2)+4y-1=0`
`S_(1)-= x^(2)+y^(2)+6x+y+8=0`
`S_(3)-=x^(2)+y^(2)-4x-4y-37=0`
touch the other two. Also, let `P_(1),P_(2)` and `P_(3)` be the points of contact of `S_(1)` and `S_(2) , S_(2)` and `S_(3)`, and `S_(3)` , respectively, `C_(1),C_(2)` and `C_(3)` are the centres of `S_(1),S_(2)` and `S_(3)` respectively.
`P_(2)` and `P_(3)` are images of each other with respect to the line

A

`y=x`

B

`y = -x`

C

`y=x+1`

D

`y= -x+2`

Text Solution

Verified by Experts

The correct Answer is:
1
`S_(1)-= x^(2)+y^(2)+4y-1=0`
`S_(2) -= x^(2)+y^(2)+6x+y+8=0`
`S_(3)-=x^(2)+y^(2)-4x-4y-37=0`
`C_(1) -= (0,-2),r_(1)=sqrt(5)`
`C_(2) -= (-3,(-1)/(2)),r_(2)=(sqrt(5))/(2)`
`C_(3)-= (2,2), r_(3)= 3 sqrt(5)`
Also, `C_(1)C_(2)=sqrt(9+(9)/(4))=(3sqrt(5))/(2)=r_(1)+r_(2)`
So, `S_(1)` and `S_(2)` touch each other externally,
`C_(2)C_(3)=sqrt(25+(25)/(4))=(5sqrt(5))/(2)=r_(3)-r_(2)`
So, `S_(2)` and `S_(3)` touch each other internally.
The point of contact `P_(1)` divides `C_(1)C_(2)` internally in the ratio `r_(1) : r_(2) = 2:1`
`implies P_(1) -= (-2 ,-1)`
The point of contact `P_(2)` divides `C_(2)C_(3)` externally in the ratio `r_(2) : r_(3) = 1:6`
`implies P_(2) -= (-4, -1)`.
The point of contact `P_(3)` divides `C_(3)C_(1)` externally in the ratio `r_(3) : r_(1) = 3:1`
`implies P_(3) -= ( -1,-4)`
Area of `Delta P_(1)P_(2)P_(3)= (1)/(2) | {:(-2,-1,1),(-4,-1,1),(-1,-4,1):}| = 3`
And area `Delta C_(1)C_(2)C_(3)= (1)/(2) |{:(0,-2,1),(-3,(-1)/(2),1),(2,2,1):}|=(15)/(2)`
`:. ("area "(Delta P_(1)P_(2)P_(3)))/("area"(DeltaC_(1)C_(2)C_(3)))=(3)/(15)=2:5`
Clearly, `P_(2)(-4,-1)` and `P_(3)(-1,-4)` are images of each other with respect to the line `y=x`
Promotional Banner

Topper's Solved these Questions

Similar Questions

Explore conceptually related problems

Let each of the circles, S_(1)=x^(2)+y^(2)+4y-1=0 , S_(2)=x^(2)+y^(2)+6x+y+8=0 , S_(3)=x^(2)+y^(2)-4x-4y-37=0 touches the other two. Let P_(1), P_(2), P_(3) be the points of contact of S_(1) and S_(2), S_(2) and S_(3), S_(3) and S_(1) respectively and C_(1), C_(2), C_(3) be the centres of S_(1), S_(2), S_(3) respectively. Q. The co-ordinates of P_(1) are :

Let each of the circles, S_(1)=x^(2)+y^(2)+4y-1=0 , S_(2)=x^(2)+y^(2)+6x+y+8=0 , S_(3)=x^(2)+y^(2)-4x-4y-37=0 touches the other two. Let P_(1), P_(2), P_(3) be the points of contact of S_(1) and S_(2), S_(2) and S_(3), S_(3) and S_(1) respectively and C_(1), C_(2), C_(3) be the centres of S_(1), S_(2), S_(3) respectively. Q. P_(2) and P_(3) are image of each other with respect to line :

Let each of the circles, S_(1)=x^(2)+y^(2)+4y-1=0 , S_(2)=x^(2)+y^(2)+6x+y+8=0 , S_(3)=x^(2)+y^(2)-4x-4y-37=0 touches the other two. Let P_(1), P_(2), P_(3) be the points of contact of S_(1) and S_(2), S_(2) and S_(3), S_(3) and S_(1) respectively and C_(1), C_(2), C_(3) be the centres of S_(1), S_(2), S_(3) respectively. Q. The ratio ("area"(DeltaP_(1)P_(2)P_(3)))/("area"(Delta C_(1)C_(2)C_(3))) is equal to :

The radical centre of circles represented by S_(1)-=x^(2)+y^(2)-7x-6y-4=0,S_(2)-=x^(2)+y^(2)+10x+6y-4=0

Consider the parabolas S_(1)=y^(2)-4ax=0 and S_(2)=y^(2)-4bx=0.S_(2) will S_(1), if

If S_(1),S_(2) andS _(3) be respectively the sum of n,2n and 3n terms of a G.P.prove that S_(1)(S_(3)-S_(2))=(S_(2)-S_(1))^(2)

Let the sum of n,2n,3n terms of an A.P.be S_(1),S_(2) and respectively,show that S_(3)=3(S_(2)-S_(1))

Consider the circles S_(1):x^(2)+y^(2)=4 and S_(2):x^(2)+y^(2)-2x-4y+4=0 which of the following statements are correct?

CENGAGE-CIRCLE -Exercise (Comprehension)
  1. Two variable chords AB and BC of a circle x^(2)+y^(2)=a^(2) are such t...

    Text Solution

    |

  2. Give two circles intersecting orthogonally having the length of common...

    Text Solution

    |

  3. Give two circles intersecting orthogonally having the length of common...

    Text Solution

    |

  4. Give two circles intersecting orthogonally having the length of common...

    Text Solution

    |

  5. In the given figure, there are two circles with centers A and B. The c...

    Text Solution

    |

  6. In the given figure, there are two circles with centers A and B. The c...

    Text Solution

    |

  7. In the given figure, there are two circles with centers A and B. The c...

    Text Solution

    |

  8. Let each of the circles S(1)-=x^(2)+y^(2)+4y-1=0 S(1)-= x^(2)+y^(2...

    Text Solution

    |

  9. Let each of the circles S(1)-=x^(2)+y^(2)+4y-1=0 S(1)-= x^(2)+y^(2...

    Text Solution

    |

  10. Let each of the circles S(1)-=x^(2)+y^(2)+4y-1=0 S(1)-= x^(2)+y^(2...

    Text Solution

    |

  11. The line x + 2y = a intersects the circle x^2 + y^2 = 4 at two distinc...

    Text Solution

    |

  12. The line x + 2y = a intersects the circle x^2 + y^2 = 4 at two distinc...

    Text Solution

    |

  13. Let A,B, and C be three sets such that A={(x,y)|(x)/(cos theta)=(y)/...

    Text Solution

    |

  14. Let A,B, and C be three sets such that A={(x,y)|(x)/(cos theta)=(y)/...

    Text Solution

    |

  15. Consider the family of circles x^(2)+y^(2)-2x-2ay-8=0 passing through...

    Text Solution

    |

  16. Show that equation x^2+y^2-2ay-8=0 represents, for different values o...

    Text Solution

    |

  17. Consider the family of circles x^(2)+y^(2)-2x-2ay-8=0 passing through...

    Text Solution

    |

  18. A circle C of radius 1 is inscribed in an equilateral triangle PQR. Th...

    Text Solution

    |

  19. A circle C of radius 1 is inscribed in an equilateral triangle PQR. Th...

    Text Solution

    |

  20. A circle C of radius 1 is inscribed in an equilateral triangle PQR. Th...

    Text Solution

    |