360949
A liquid is kept in a cylindrical vessel which is being rotated about a vertical axis through the centre of the circular base. If the radius of the vessel is \(4\;cm\) and angular velocity of rotation is \(0.1\,rad{\rm{/}}s,\) then the difference in the heights of the liquid at the centre of the vessel and the edge in \(\mu m\) is
(Take \(g = 10\;m{\rm{/}}{s^2}\))
360951
Match the Column I (situation) with Column II (reason or principle) and select the correct answer from the codes given below.
Column I
Column II
A
Hydraulic lift
P
Archimedes principle
B
A razor blade float on water surface
Q
Pascal's law
C
Spinning of a cricket ball
R
Bernoull's principle
D
Ship is floating on ocean water
S
Upthrust and viscous force
360949
A liquid is kept in a cylindrical vessel which is being rotated about a vertical axis through the centre of the circular base. If the radius of the vessel is \(4\;cm\) and angular velocity of rotation is \(0.1\,rad{\rm{/}}s,\) then the difference in the heights of the liquid at the centre of the vessel and the edge in \(\mu m\) is
(Take \(g = 10\;m{\rm{/}}{s^2}\))
360951
Match the Column I (situation) with Column II (reason or principle) and select the correct answer from the codes given below.
Column I
Column II
A
Hydraulic lift
P
Archimedes principle
B
A razor blade float on water surface
Q
Pascal's law
C
Spinning of a cricket ball
R
Bernoull's principle
D
Ship is floating on ocean water
S
Upthrust and viscous force
360949
A liquid is kept in a cylindrical vessel which is being rotated about a vertical axis through the centre of the circular base. If the radius of the vessel is \(4\;cm\) and angular velocity of rotation is \(0.1\,rad{\rm{/}}s,\) then the difference in the heights of the liquid at the centre of the vessel and the edge in \(\mu m\) is
(Take \(g = 10\;m{\rm{/}}{s^2}\))
360951
Match the Column I (situation) with Column II (reason or principle) and select the correct answer from the codes given below.
Column I
Column II
A
Hydraulic lift
P
Archimedes principle
B
A razor blade float on water surface
Q
Pascal's law
C
Spinning of a cricket ball
R
Bernoull's principle
D
Ship is floating on ocean water
S
Upthrust and viscous force
360949
A liquid is kept in a cylindrical vessel which is being rotated about a vertical axis through the centre of the circular base. If the radius of the vessel is \(4\;cm\) and angular velocity of rotation is \(0.1\,rad{\rm{/}}s,\) then the difference in the heights of the liquid at the centre of the vessel and the edge in \(\mu m\) is
(Take \(g = 10\;m{\rm{/}}{s^2}\))
360951
Match the Column I (situation) with Column II (reason or principle) and select the correct answer from the codes given below.
Column I
Column II
A
Hydraulic lift
P
Archimedes principle
B
A razor blade float on water surface
Q
Pascal's law
C
Spinning of a cricket ball
R
Bernoull's principle
D
Ship is floating on ocean water
S
Upthrust and viscous force
360949
A liquid is kept in a cylindrical vessel which is being rotated about a vertical axis through the centre of the circular base. If the radius of the vessel is \(4\;cm\) and angular velocity of rotation is \(0.1\,rad{\rm{/}}s,\) then the difference in the heights of the liquid at the centre of the vessel and the edge in \(\mu m\) is
(Take \(g = 10\;m{\rm{/}}{s^2}\))
360951
Match the Column I (situation) with Column II (reason or principle) and select the correct answer from the codes given below.
Column I
Column II
A
Hydraulic lift
P
Archimedes principle
B
A razor blade float on water surface
Q
Pascal's law
C
Spinning of a cricket ball
R
Bernoull's principle
D
Ship is floating on ocean water
S
Upthrust and viscous force