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Block of mass m =11.7 kg is to be pushed a distance of s = 4.65 m along an incline and raised to a distance of h = 2.86 m. Assuming frictionless surface. Calculate the work done in applying a force parallel to the incline to push the block up at a constant speed. (Take, g = 9.8 ms ) =? for Class 11 2024 is part of Class 11 preparation. The Question and answers have been prepared
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Block of mass m =11.7 kg is to be pushed a distance of s = 4.65 m along an incline and raised to a distance of h = 2.86 m. Assuming frictionless surface. Calculate the work done in applying a force parallel to the incline to push the block up at a constant speed. (Take, g = 9.8 ms ) =?, a detailed solution for Block of mass m =11.7 kg is to be pushed a distance of s = 4.65 m along an incline and raised to a distance of h = 2.86 m. Assuming frictionless surface. Calculate the work done in applying a force parallel to the incline to push the block up at a constant speed. (Take, g = 9.8 ms ) =? has been provided alongside types of Block of mass m =11.7 kg is to be pushed a distance of s = 4.65 m along an incline and raised to a distance of h = 2.86 m. Assuming frictionless surface. Calculate the work done in applying a force parallel to the incline to push the block up at a constant speed. (Take, g = 9.8 ms ) =? theory, EduRev gives you an
ample number of questions to practice Block of mass m =11.7 kg is to be pushed a distance of s = 4.65 m along an incline and raised to a distance of h = 2.86 m. Assuming frictionless surface. Calculate the work done in applying a force parallel to the incline to push the block up at a constant speed. (Take, g = 9.8 ms ) =? tests, examples and also practice Class 11 tests.