Tangents are drawn from the origin to the curve `y = sin x`. Prove that their points of contact lie on the curve `x^(2) y^(2) = (x^(2) - y^(2))`

Tangents are drawn from the origin to the curve `y = sin x`. Prove tha

1.	Tangents are drawn from the origin to the curve `y = sin x`. Prove that their points of contact lie on the curve `x^(2) y^(2) = (x^(2) - y^(2))`
Answer» Let the point of contact be `(x_(1), y_(1))` Now, `y = sin x rArr (dy)/(dx) = cos x rArr ((dy)/(dx))_((x_(1)"," y_(1))) = cos x_(1)` `:.` the equation of the tangent at `(x_(1), y_(1))` is `(y - y_(1))/(x - x_(1)) = cos x_(1)`. Since the tangent passes through the origin, we have `(-y_(1))/(-x_(1)) = cos x_(1)`, i.e., `(y_(1))/(x_(1)) = cos x_(1)`..(i) But, `(x_(1) , y_(1))` lies on the curve `y = sin x` `:. y_(1) = sin x_(1)`...(ii) Squaring (i) and (ii) and adding, we get `(y_(1)^(2))/(x_(1)^(2)) + y_(1)^(2) = 1 rArr y_(1)^(2) + x_(1)^(2) y_(1)^(2) = x_(1)^(2)` `rArr x_(1)^(2) y_(1)^(2) = (x_(1)^(2) - y_(1)^(2))` This shows that `(x_(1), y_(1))` lies on the curve `x^(2) y^(2) = (x^(2) - y^(2))`

Discussion

No Comment Found

Related InterviewSolutions

A ladder of length 20 feet rests against a smooth vertical wall. The lowerend, which is on a smooth horizontal floor is moving away from the wall at the rate of 4 feet/sec. If the lower end is 12 feet away from the wall, then the rate at which the upper end move, isA. `(16)/(3)" ft/sec"`B. `(-16)/(3)" ft/sec"`C. 3 ft/secD. `"-3" ft/sec"`
The total cost `C(x)` of producing `x` items in a firm is given by `C(x)=0.0005x^3-0.002x^2+30x+6000` Find the marginal cost when `4` units are produced
Oil is leaking at the rate of 16 mL/s from a vertically kept cylindrical drum containing oil. If the radius of the drum is 7 cm and its height is 60 cm, find the rate at which the level of the oil is changing when the oil level is 18 cm
A ladder is inclined to a wall making an angle of 30° with it. A man is ascending the ladder at the rate of 3 m/sec. How fast is he approaching the wall ?
A square plate is contracting at the uniform rate of `2 cm^(2)//sec`. If side fo the square is 16 cm long, then the rate of decrease of its perimeter isA. `(1)/(2) cm//sec.`B. `(-1)/(2) cm//sec.`C. `(1)/(4) cm//sec`D. `(-1)/(4) cm//sec`
A man of height 160 cm walks at a rate of 1.1` m/sec from a lamp post which 6m high. Find the rate at which the length of his shadow increases when he is 1m away from the lamp post.
The side of a square in increasing at the rate of 0.2 cm/sec. Find therate of increase of the perimeter of the square.
If the radius of a circle is 2 cm and is increasing at the rate of 0.5 cm/sec., then the rate of increase of its area isA. `pi cm^(2)//sec`B. `2pi cm^(2)//sec`C. `3pi cm^(2)//sec`D. `4pi cm^(2)//sec`
A bullet is shot horizontally and its distance s cms at time `t` sec is given by `s=1200t-15t^(2)` then the distance covered with which the bullet is shot when it comes to the rest isA. 48000 cms.B. 24000 cmsC. 4800 cmsD. 2400 cms
A particle moves along the curve `6y = x^3 + 2`.Find the points on the curve at whichy-co-ordinate is changing 8 times as fast as thex-co-ordinate.

Tangents are drawn from the origin to the curve `y = sin x`. Prove that their points of contact lie on the curve `x^(2) y^(2) = (x^(2) - y^(2))`

Discussion

No Comment Found

Related InterviewSolutions

Reply to Comment