A body is released from rest on the surf...

A body is released from rest on the surface of water filled to a height of 2 m in a big cylinder. Assuming there is no viscous force, calculate of the time taken by the body to reach the bottom of cylinder. The relative density of body is 6.

Text Solution

AI Generated Solution

To solve the problem of calculating the time taken by a body to reach the bottom of a cylinder filled with water, we can follow these steps: ### Step 1: Understand the Forces Acting on the Body When the body is released from the surface of the water, two main forces act on it: 1. The weight of the body (downward force), \( F_g = mg \) 2. The buoyant force (upward force), \( F_b \) ### Step 2: Calculate the Buoyant Force ...

Promotional Banner

Promotional Banner

Topper's Solved these Questions

MECHANICAL PROPERTIES OF FLUIDS
MODERN PUBLICATION|Exercise Revision Exercise (Very Short Answer Questions)|54 Videos
MECHANICAL PROPERTIES OF FLUIDS
MODERN PUBLICATION|Exercise Revision Exercise (Additional Questions)|3 Videos
MECHANICAL PROPERTIES OF FLUIDS
MODERN PUBLICATION|Exercise NCERT (Short Answer Type Questions)|5 Videos
MATHEMATICAL TOOLS
MODERN PUBLICATION|Exercise PRACTICE PROBLEMS (10)|12 Videos
MOTION IN A PLANE
MODERN PUBLICATION|Exercise Chapter Practice Test|15 Videos

Similar Questions

Explore conceptually related problems

A smooth inclined plane is inclined at an angle theta with the horizontal. A body starts from rest and slides down the inclined surface. The time taken by the body to reach the bottom is

A body is projected vertically upward from the surface of earth with a velocity sufficient to carry it to initially. Calculate the time taken by it to reach height h .

A ball of relative density 0.8 falls into water from a height of 2 m. The depth to which the ball will sink is (neglect viscous forces)

A ball of relative density 0.8 falls into water from a height of 2 m. find the depth to which the ball will sink (neglect viscous forces)

A body is allowed to slide from the top along a smooth inclined plane of length 5m at an angle of inclination 30^(@) .If g=10ms^(-2) , time taken by the body to reach the bottom of the plane is

If the body starts from rest from the top of the rough inclined plane of length 1, time taken to reach the bottom of the plane is

Body A of mass M is dropped from a height of 1 m and body. B of mass 3M is dropped from a height of 9 m. The ratio of time taken by the bodies 1 and 2 to reach the ground is

A stone of relative density K is released from rest on the surface of a lake. If viscous effects are lgnored, the stone sinks in water with an acceleration of

MODERN PUBLICATION-MECHANICAL PROPERTIES OF FLUIDS-HOTS (Higher Order Thinking Skills) (Advanced Level))

A lawn sprinkler has 20 holes, each of cross-sectional area 2.0 xx 10^...
Text Solution
|
A tank is filled with water to a height h. A hole is made at the botto...
Text Solution
|
F and are the forces exerted by the liquid on the curved surface and a...
Text Solution
|
While sewing, a person often wets the end of a thread before, trying t...
Text Solution
|
A boat carrying a large number of stones is floating in a water tank. ...
Text Solution
|
A cylindrical vessel of radius 3 cm has at the bottom a horizontal cap...
Text Solution
|
There is a conical pipe of radii of its two ends as 0.2m and 0.02m wit...
Text Solution
|
Two holes are made at a depth of h and 5 h from the water surface in a...
Text Solution
|
Two air bubbles are formed in water (surface tension 0.72 N/m). The bu...
Text Solution
|
A body is released from rest on the surface of water filled to a heigh...
Text Solution
|
Two capillary tubes of radii r and 4r and lengths l, 3l are fitted ho...
Text Solution
|
Water is filled to a height in a long container. From what height belo...
Text Solution
|
On removing a hemispherical part from the bottom of a cylinder, the ma...
Text Solution
|
A ball is falling from a height of 15 cm into water. To which depth th...
Text Solution
|
Water rises to a height of 0.3 m in a capillary tube while doing an ex...
Text Solution
|