Properties of Fluids
NIOS · Class 12 · Physics
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A liquid of density 1000 kg/m³ fills a tank. What is the hydrostatic pressure at a depth of 5 m? (Take g = 10 m/s²)
The pressure at a depth h in a liquid does NOT depend on which of the following?
In a hydraulic lift, a force of 50 N is applied on a smaller piston of area 0.01 m². What is the force exerted on a larger piston of area 0.5 m²?
According to Archimedes' principle, the buoyant force on a submerged object is equal to:
Sample Questions
The SI unit of surface tension is:
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N/m
Step 1: Surface tension T is defined as the force per unit length: T = F/L. Step 2: Unit of force = Newton (N), unit of length = metre (m). Step 3: Therefore, unit of surface tension = N/m. Alternatively, surface tension = surface energy per unit area = J/m², which equals N/m. N/m² is the unit of pressure, N·m is the unit of torque/energy. These are common confusions.
The excess pressure inside a soap bubble of radius r and surface tension T is:
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4T/r
Step 1: A soap bubble has TWO surfaces — an inner surface and an outer surface, both in contact with air. Step 2: Each surface contributes an excess pressure of 2T/r. Step 3: Total excess pressure = 2T/r + 2T/r = 4T/r. For a liquid drop or air bubble in water (only ONE surface), excess pressure = 2T/r. The factor of 4T/r is specific to soap bubbles because of the two surfaces.
The height to which a liquid rises in a capillary tube of radius r is given by h = 2T cosθ / (rρg). If the radius of the capillary is doubled, what happens to the height of the liquid column?
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It becomes half
Step 1: The capillary rise formula is h = 2T cosθ / (rρg). Step 2: From the formula, h is inversely proportional to r: h ∝ 1/r. Step 3: If r is doubled (r → 2r), then h → 2T cosθ / (2r × ρg) = (1/2) × original h. So the height becomes half. This explains why water rises much higher in very thin capillaries (like in plant stems) compared to wider ones.
The SI unit of coefficient of viscosity is:
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N·s/m²
Step 1: Newton's law of viscosity: F = -η A (dv/dx). Step 2: Rearranging: η = F / [A × (dv/dx)]. Step 3: Units: η = N / (m² × (m/s)/m) = N / (m² × s⁻¹) = N·s/m². This is also written as Pa·s (Pascal-second). The CGS unit is 'poise', where 1 poise = 0.1 N·s/m². N/m² alone is the unit of pressure, not viscosity.
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