Exams › JEE Advanced › Physics
A small sphere is released from rest and falls through air. After descending 100 m it reaches terminal velocity and thereafter falls at constant speed. Considering the first 100 m and the next 100 m, which statement about the magnitudes of work done is correct?
- by viscosity of air is lesser in first 100 m than in the second 100 m
- by buoyancy of air is in first 100 m is equal to that in the second 100 m
- by viscosity of air is greater in first 100 m than in the second 100 m
- by buoyancy of air is lesser in first 100 m than that in the second 100 m
Correct answer: by buoyancy of air is in first 100 m is equal to that in the second 100 m
Solution
Buoyancy depends only on the sphere's volume and air density, so it is the same constant force throughout. Over equal 100 m distances it does equal work. Viscous force grows with speed, so it is smaller during the accelerating first 100 m than during the constant-speed second 100 m.
Related JEE Advanced Physics questions
- A capillary tube with a square-shaped internal cross-section, each side of length 'a', is inserted vertically into a liquid of density ρ and surface tension σ. If the liquid adheres to the tube walls with a contact angle θ, approximately how high will the liquid rise inside the tube? (Ignore the surface tension effects at the corners of the tube.)
- A hot air balloon with a total mass of 480 kg, including passengers and 1 kg sandbags, is floating steadily at a height of 100 m. The balloon's buoyancy is determined by its fixed volume, V. If N sandbags are removed, the balloon ascends to a stable height of approximately 150 m. The air density changes with altitude according to ρ(h) = ρ₀e⁻ʰ/ʰ₀, where ρ₀ = 1.25 kg/m³ and h₀ = 6000 m. What is the value of N?
- A container accelerates horizontally to the left with acceleration g/2. A uniform rod of length L is partially submerged vertically in a liquid contained in the accelerating container. The density of the liquid is rho and the density of the rod is rho/2. If the length of the rod submerged in the liquid is sqrt(a/b)*L, where a and b are the least positive integers (in lowest terms), find (a + b).
- A vertical U-tube (communicating tube) contains a liquid of density rho and surface tension T. The tube has inner radius r. When the entire system accelerates horizontally with acceleration a, the pressure at point A (at the liquid surface in the left arm, taking the meniscus correction into account) is given by which of the following expressions? (Take atmospheric pressure as P0, and assume the contact angle is 0 deg.)
- A space 2.5 cm wide between two large parallel plane surfaces is filled with oil. The force required to drag a very thin plate of area 0.5 m² at a speed of 0.5 m/s, placed exactly midway between the two surfaces, is 1 N. Find the coefficient of viscosity of the oil.
- A ball of mass 10 kg and density 1 g/cm³ is attached to the base of a container by a spring (spring constant k = 200 N/m). The container is filled with a liquid of density 1.1 g/cm³. The entire system accelerates upward at 2 m/s². Find the elongation (extension) of the spring. (Take g = 10 m/s²)
⚔️ Practice JEE Advanced Physics free + battle 1v1 →