The wooden plank of length 1 m and unifo...

The wooden plank of length 1 m and uniform cross section is hinged at one end to the bottom of a tank as shown in figure. The tank is filled with water up to a height of 0.5 m. The specific gravity of the plank is 0.5. Find the angle `theta` that the plank makes with the vertical in the equilibrium position. (Exclude the case `theta=0`)
,

` 15^@ `

`30 ^@ `

`45^@ `

`90^@`

Text Solution

Verified by Experts

The correct Answer is:

Three forces will act on the plank.
(a) Weight which will act at centre of plank.
(b) Upthrust which will act at centre of submerged portion.
`(c)` Force from the hinge at O.
Taking moments of all three forces about point O.
Moment of hinge force will be zero.
`therefore` Moment of W(clockwise) = Moment of F (anti-clockwise)
`therefore" "(Algrho)(1)/(2)sintheta=A(0.5sectheta)(rho_w)(g)((0.5sectheta)/(2))sintheta`, I=length of the plank
`therefore" "cos^(2)theta=((0.5)^(2)(1))/((1)^(2)(rho))=((0.5)^(2))/((0.5))=(1)/(2)" "(asI=1m)" "therefore" "costheta=(1)/(sqrt2)" "or" "theta=45^(@)`

Topper's Solved these Questions

LIQUIDS
VMC MODULES ENGLISH|Exercise JEE MAIN (LEVEL - 1 )|31 Videos
LAWS OF MOTION
VMC MODULES ENGLISH|Exercise IMPECCABLE|53 Videos
MAGNETIC EFFECTS OF CURRENT
VMC MODULES ENGLISH|Exercise JEE Advanced (Archive)|78 Videos

Similar Questions

Explore conceptually related problems

A wooden plank of length 1m and uniform cross-section is hinged at one end to the bottom of a tank as shown in fig. The tank is filled with water upto a hight 0.5m. The specific gravity of the plank is 0.5. Find the angle theta that the plank makes with the vertical in the equilibrium position. (Exclude the case theta=theta^@ )

A wooden rod of a uniform cross section and of length 120 cm is hinged at the bottom of the tank which is filled with water to a height of 40 cm . In the equilibrium position, the rod makes an angle of 60^@ with the vertical. The centre of buoyancy is located on the rod at a distance (from the hinge) of

A tank of square cross section (2mxx2m) is filled with water up to a height of 2.5 m . Find the thrust experienced by the vertical and botom of the tank (g=10m//s^(2)) .

A uniform rod of length 2.0 m specific gravity 0.5 and mass 2 kg is hinged at one end to the bottom of a tank of water (specific gravity = 10) filled upto a height o f 1.0 m as shown in figure. Taking the case theta =- 0^(@) the force exerted by the hings on the rod is (g = 10 m//s^(2))

A uniform rod of length L pivoted at the bottom of a pond of depth L//2 stays in stable equilibrium as shown in the figure. Find the angle 0 if the density of the material of the rod is half of the density of water.

A slender homogeneous rod of length 2L floats partly immersed in water, being supported by a string fastened to one of its ends, as shown in the figure. The specific gravity of the rod is 0.36. The length of the rod that extends out of the water is (KL)/(10) Find the value of K.

A uniform wooden bar of length l and mass m hinged on a vertical wall of a containing water, at one end. 3//5th part of the bar is submerged in water. Find the ratio of densities of the liquid and the bar.

A tank 5 m high is half filled with water and then is filled to top with oil of density 0.85 g//cm^3 The pressure at the bottom of the tank, due to these liquids is

A solid right cylinder of length l stands upright at rest on the bottom of a large tub filled with water up to height h as shown in the figure-I density of material of the cylinder equals to that of water. Now the cylinder is pulled slowly out of water with the help of a thin light inextensible thread as shown in figure-II. Find the work done by the tension force develop in the thread. (a). mgh (b). mgl (c). 0.5 mgl (d). mg(0.5l+h)

A liquid of density rho_0 is filled in a wide tank to a height h. A solid rod of length L, cross-section A and density rho is suspended freely in the tank. The lower end of the rod touches the base of the tank and h=L/n (where n gt 1). Then the angle of inclination theta of the rod with the horizontal in equilibrium position is

VMC MODULES ENGLISH-LIQUIDS-JEE ADVANCED (LEVEL -2)

A body floats in a liquid contained in a beaker. The whole system as s...
Text Solution
|
A U-tube of uniform cross section is partially filled with a liquid I....
Text Solution
|
The wooden plank of length 1 m and uniform cross section is hinged at ...
Text Solution
|
A vessel contains oil (density = 0.8 g//cm^(3)) over mercury (density ...
Text Solution
|
A container of a large uniform cross sectional area A strong on horizo...
Text Solution
|
A closed compartment containing gas is moving with some acceleration i...
Text Solution
|
Water from a tap emerges vertically downwards with an initial speed of...
Text Solution
|
A large open tank has two holes in the wall. One is a square hole of s...
Text Solution
|
A hemispherical portion of a radius R is removed from the bottom of a...
Text Solution
|
A wooden block with a coin placed on its top, floats in water as shown...
Text Solution
|
Water is filled in a container up to height 3 m. A small hole of area ...
Text Solution
|
Water is filled up to a height h in a beaker of radius R as shown in t...
Text Solution
|
A glass tube of uniform internal radius (r) has a valve separating the...
Text Solution
|
A thin uniform cylindrical shell, closed at both ends, is partially fi...
Text Solution
|
A glass capillary tube is of the shape of a truncated cone with an ape...
Text Solution
|
The spring balance A reads 2 kg with a block in suspended from it. A b...
Text Solution
|
Two solid spheres and of equal volumes but of different densities and ...
Text Solution
|
A solid sphere of radius R and density rho is attached to one end of a...
Text Solution
|
Two spheres P and Q of equal radii have densities rho1 and rho2, respe...
Text Solution
|
A uniform capillary tube of inner radius r is dipped vertically into ...
Text Solution
|