What is the foot of the normal if the straight line x + y + 7 = 0 is normal to the hyperbola 3x^2 – 4y^2 = 12 whose normal is at the point (x1, y1)?(a) (4, 3)(b) (-4, 3)(c) (4, -3)(d) (-4, -3)The question was posed to me during an online exam.This intriguing question comes from Calculus Application topic in portion Application of Calculus of Mathematics – Class 12

What is the foot of the normal if the straight line x + y + 7 = 0 is n

1.	What is the foot of the normal if the straight line x + y + 7 = 0 is normal to the hyperbola 3x^2 – 4y^2 = 12 whose normal is at the point (x1, y1)?(a) (4, 3)(b) (-4, 3)(c) (4, -3)(d) (-4, -3)The question was posed to me during an online exam.This intriguing question comes from Calculus Application topic in portion Application of Calculus of Mathematics – Class 12
Answer» RIGHT option is (d) (-4, -3) The explanation is: Equation of the given hyperbola is, 3x^2 – 4y^2 = 12 ……….(1) Differentiating both sides of (1) with respect to y we get, 32x(dy/dx) – 4(2y) = 0 Or dx/dy = 4y/3x Therefore, the equation of the normal to the hyperbola (1) at the POINT (x1, y1) on it is, y – y1 = -[dx/dy](x1, y1) (X – x1) = -4y1/3x1(x – x1) Or 3x1y + 4y1x – 7x1y1 = 0 Now, if possible, let us assume that the straight line x + y + 7 = 0 ………..(2) This line is normal to the hyperbola (1) at the point (x1, y1). Then, the equation (2) and (3) must be identical. HENCE, we have, 3x1/1 = 4y1/1 = -7x1y1/7 So, x1 = -4 and y1 = -3 Now, 3x1^2 – 4y1^2 = 3(-4)^2 – 4(-3)^2 = 12 This shows the point (-4, -3) lies on the hyperbola (1). So, it’s the normal to the hyperbola. Thus, it is EVIDENT that the straight line (3) is normal to the hyperbola (1); the co-ordinate foot is (-4, -3).

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