Home
Class 12
MATHS
A man observe that was he has climbed up...

A man observe that was he has climbed up `1/3` of the length of an inclined ladder ,placed against a wall the angular depression of an object on the floor is `alpha` and that after he reached the top of the ledder , the angular depression `beta` If the inclintaion of the ladder to the is `theta` then prove that cot `theta=(3 cot beta-cot alpha)/2`

Text Solution

Verified by Experts

Let AB be the ladder and the object be ay point O.

Also ,let l length of the ladder and the man be at point D intitially .
In triangle AMD, DM = AD sin `theta=1/3lsin theta`
In triangle ACB,BC `=l sin theta`
In triangle OMD, OM `= DM cot alpha = 1/3lsinthetacotalpha`
In triangle OCB, OC = BC cot `beta = l sin theta cot beta`
Now ,MC = OC - OM = l sin `theta cot beta - 1/3 l sin theta cot alpha .....(1)`
Also , MC = DN `=2/3 l cos theta ` (From triangle BND)
`therefore l sin theta cot beta - 1/3 l sin theta alpha = 2/3 l cos theta `
`rArr ( 3 cot beta - cot alpha ) sin theta = 2 cos theta `
`rArr cot theta = ( 3 cot beta - cot alpha )/(2)`
Promotional Banner

Topper's Solved these Questions

  • HIGHT AND DISTANCE

    CENGAGE|Exercise Exercise|18 Videos

  • HIGHT AND DISTANCE

    CENGAGE|Exercise JEE Previous Year|3 Videos

  • GRAPHS OF TRIGONOMETRIC FUNCTIONS

    CENGAGE|Exercise Exercise|22 Videos

  • HYPERBOLA

    CENGAGE|Exercise JEE Advanced Previous Year|14 Videos

Similar Questions

Explore conceptually related problems

A man observes when he has climbed up (1)/(3) of the length of an inclined ladder placed against a wall,the angular depression of an object on the floor is alpha. When he climbs the ladder on completely,the angleof depression is beta .If the inclination of the ladder to the floor is theta ,then prove that cot theta=(2cot beta-cot alpha)/(2)

Two stations due south of a leaning tower which leans towards the north are at distances a and b from its foot If alpha and beta are the elevations of the top of the tower from these stations then prove that its inclination theta to the horizontal is given by cot theta=(b cot alpha-a cot beta)/(b-a)

Two stations due south of a leaning tower which leans towards the north are at distances a and b from its foot.If alpha beta be the elevations of the top of the tower from these stations, prove that its inclination theta to the horizontal is given by cot theta=(b cot alpha-a cot beta)/(b-a)

If cot^(2)theta=cot(theta-alpha)cot(theta-beta), then show that cot2 theta=(1)/(2)[cot alpha+cot beta]

A train travelling on one of two intersecting railway lines, subtends at a certain station on the other line, an/ angle alpha when the front of the carriage reaches the junction and an angle beta when the end of the carriage reaches it. Then, the two lines are inclined to each other at an angle theta, show that 2 cot theta=cot alpha-cot beta cot alpha + cot beta

A tower AB leans towards west making an angle alpha with the vertical . The anlgular elevation of B , the topmost point of the tower is beta as obsreved from a point C due east of A at distance d from A.If the angular elevation of B from a pont D at a distance 2d due east of C is gamma , then prove that 2 tan alpha = cot gamma -cot beta