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Consider a rigid solid sphere falling with a constant velocity in a fluid. The following data areknown at the conditions of interest: viscosity of the fluid = 0.1 Pa s, acceleration due to gravity =10 m s-2, density of the particle = 1180 kg m-3 and density of the fluid = 1000 kg m-3. Thediameter (in mm, rounded off to the second decimal place) of the largest sphere that settles in theStokes’ law regime (Reynolds number 0.1), is_________Imp : you should answer only the numeric valueCorrect answer is '2.15'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared
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the GATE exam syllabus. Information about Consider a rigid solid sphere falling with a constant velocity in a fluid. The following data areknown at the conditions of interest: viscosity of the fluid = 0.1 Pa s, acceleration due to gravity =10 m s-2, density of the particle = 1180 kg m-3 and density of the fluid = 1000 kg m-3. Thediameter (in mm, rounded off to the second decimal place) of the largest sphere that settles in theStokes’ law regime (Reynolds number 0.1), is_________Imp : you should answer only the numeric valueCorrect answer is '2.15'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam.
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Consider a rigid solid sphere falling with a constant velocity in a fluid. The following data areknown at the conditions of interest: viscosity of the fluid = 0.1 Pa s, acceleration due to gravity =10 m s-2, density of the particle = 1180 kg m-3 and density of the fluid = 1000 kg m-3. Thediameter (in mm, rounded off to the second decimal place) of the largest sphere that settles in theStokes’ law regime (Reynolds number 0.1), is_________Imp : you should answer only the numeric valueCorrect answer is '2.15'. Can you explain this answer?, a detailed solution for Consider a rigid solid sphere falling with a constant velocity in a fluid. The following data areknown at the conditions of interest: viscosity of the fluid = 0.1 Pa s, acceleration due to gravity =10 m s-2, density of the particle = 1180 kg m-3 and density of the fluid = 1000 kg m-3. Thediameter (in mm, rounded off to the second decimal place) of the largest sphere that settles in theStokes’ law regime (Reynolds number 0.1), is_________Imp : you should answer only the numeric valueCorrect answer is '2.15'. Can you explain this answer? has been provided alongside types of Consider a rigid solid sphere falling with a constant velocity in a fluid. The following data areknown at the conditions of interest: viscosity of the fluid = 0.1 Pa s, acceleration due to gravity =10 m s-2, density of the particle = 1180 kg m-3 and density of the fluid = 1000 kg m-3. Thediameter (in mm, rounded off to the second decimal place) of the largest sphere that settles in theStokes’ law regime (Reynolds number 0.1), is_________Imp : you should answer only the numeric valueCorrect answer is '2.15'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Consider a rigid solid sphere falling with a constant velocity in a fluid. The following data areknown at the conditions of interest: viscosity of the fluid = 0.1 Pa s, acceleration due to gravity =10 m s-2, density of the particle = 1180 kg m-3 and density of the fluid = 1000 kg m-3. Thediameter (in mm, rounded off to the second decimal place) of the largest sphere that settles in theStokes’ law regime (Reynolds number 0.1), is_________Imp : you should answer only the numeric valueCorrect answer is '2.15'. Can you explain this answer? tests, examples and also practice GATE tests.