A particle is projected up an inclined p...

A particle is projected up an inclined plane of inclination `beta` at na elevation `prop` to the horizon. Show that `tan prop = cot beta + 2 tan beta`, if the particle strikes the plane at right angles

Text Solution

Verified by Experts

(a) `0 = u sin (prop - beta) t - (1)/(2) g cos beta t^2`
`(t = 2 u sin (prop - beta))/(g cos beta)`…(i)
`0 = u cos (prop - beta) - g sin beta t`
`rArr t = (u cos (prop - beta))/(g cos beta)` …(ii)
From (i) and (ii), we get
`(2 sin (prop - beta))/(cos beta) = (cos(prop - beta))/(sin beta)`
`rArr 2 tan (prop - beta) = cot beta`
`rArr (2(tan prop - tan beta))/(1 + tan prop tan beta) = cot beta`
`rArr 2 tan prop - 2 tan beta = cot beta + tan prop`
`rArr tan prop = cot beta + 2 tan beta`
(b) `t = 2u sin (prop - beta)// g cos beta`
Also, `t = (u sin prop)/(g)`
`rArr (2 sin(prop - beta))/(cos beta) = sin prop`
`rArr 2 sin prop cos beta - 2 cos prop sin beta = sin prop cos beta`
`rArr sin prop cos beta = 2 cos prop sin beta`
`rArr tan prop = 2 tan beta`.

Topper's Solved these Questions

KINEMATICS-2
CENGAGE PHYSICS ENGLISH|Exercise Exercise Single Correct|76 Videos
KINEMATICS-2
CENGAGE PHYSICS ENGLISH|Exercise Exercise Multiple Correct|11 Videos
KINEMATICS-2
CENGAGE PHYSICS ENGLISH|Exercise Exercise 5.4|11 Videos
KINEMATICS-1
CENGAGE PHYSICS ENGLISH|Exercise Integer|9 Videos
KINETIC THEORY OF GASES
CENGAGE PHYSICS ENGLISH|Exercise Compression|2 Videos

Similar Questions

Explore conceptually related problems

A particle is projected up an inclined plane of inclination beta at na elevation prop to the horizontal. Show that (a) tan prop = cot beta + 2 tan beta , if the particle strikes the plane at right angles (b) tan prop = 2 tan beta , if the particle strikes the plane horizontally.

A particle is projected up an inclined plane of inclination beta at an elevation prop to the horizontal. Find the ratio between tan prop and tan beta , if the particle strikes the plane horizontally.

A particle is projected up an inclines plane. Plane is inclined at an angle theta with horizontal and particle is projected at an angle alpha with horizontal. If particle strikes the plane horizontally prove that tan alpha=2 tan theta

A particle is projected horizontally with a speed u from the top of plane inclined at an angle theta with the horizontal. How far from the point of projection will the particle strike the plane ?

A particle is projected from the bottom of an inclined plane of inclination 30^@ . At what angle alpha (from the horizontal) should the particle be projected to get the maximum range on the inclined plane.

A particle is projected with a certain velocity at an angle prop above the horizontal from the foot of an inclined plane of inclination 30^@ . If the particle strikes the plane normally, then prop is equal to.

A particle is projected with a certain velocity at an angle alpha above the horizontal from the foot of an inclined plane of inclination 30^(@) . If the particle strikes the plane normally then alpha is equal to

A particle is projected at an angle alpha with horizontal from the foot of a plane whoose inclinaiton to horizontal is beta . Shwo that is will strike the plane at right angles if , cot beta =2 tan(alpha - beta) .

A particle is projected from the bottom of an inclined plane of inclination 30^@ with velocity of 40 m//s at an angle of 60^@ with horizontal. Find the speed of the particle when its velocity vector is parallel to the plane. Take g = 10 m//s^2 .

An inclined plane makes an angle theta_0 = 30^@ with the horizontal. A particle is projected from this plane with a speed of 5 ms^-1 at an angle of elevation beta = 30^@ with the horizontal as shown in (Fig. 5.53). (a) Find the range of the particle on the plane when it strikes the plane. (b) Find the range of the particle for beta = 120^@ . .

CENGAGE PHYSICS ENGLISH-KINEMATICS-2-Exercise Subjective

A man wants to reach point B on the opposite bank of a river flowing a...
Text Solution
|
A launch plies between two points A and B on the opposite banks of a r...
Text Solution
|
A ship A streams due north at 16 km h^-1 and a ship B due west at 12 k...
Text Solution
|
Two particles start moving simultaneously with constant velocities u1 ...
Text Solution
|
The front wind screen of a car is inclined at an 60^@ with the vertica...
Text Solution
|
A particle is projected from point A to hit an apple as shown in (Fig....
Text Solution
|
A ball is projected for maximum range with speed 20 ms^-1. A boy is lo...
Text Solution
|
A target is fixed on the top of a tower 13 m high. A person standing a...
Text Solution
|
A stone is projected from the ground in such a direction so as to hit ...
Text Solution
|
A ball rolls of the top fi a strair way with horizonntal velocity of m...
Text Solution
|
A machine gun is mounted on the top of a tower of height h. At what an...
Text Solution
|
(Figure 5.196) shows an elevator cabin, which is moving downwards with...
Text Solution
|
A ball is thrown with a velocity whose horizontal component is 12 ms^-...
Text Solution
|
A particle is projected up an inclined plane of inclination beta at na...
Text Solution
|
Two parallel straight lines are inclined to the horizon at an angle pr...
Text Solution
|
A small sphere is projected with a velocity of 3 ms^-1 in a direction ...
Text Solution
|
A gun is fired from a moving platform and ranges of the shot are obser...
Text Solution
|
A cylclist is riding with a speed of 27 km h^-1. As he approaches a ci...
Text Solution
|
An electric fan has blades of length 30 cm as measured from the axis o...
Text Solution
|
A particle starts from rest and moves in a circular motion with consta...
Text Solution
|