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Moment Of Inertia Of Flywheel

Written By Tuesday, November 1, 2022 Add Comment Edit

Procedure for doing Simulator

  1. Choose any desired surround by clicking on the 'combo box'.
  2. Adjust the sliders to have suitable dimensions for flywheel organisation.
  3. Click on 'Release fly cycle' to start the experiment.
  4. No of revolutions (North) of the flywheel, afterward the loop slips off from peg is indicated on the side of axle.
  5. The time taken past flywheel to come to residue is noted from end lookout.
  6. Repeat the experiment for unlike values of variables.

Procedure for doing Existent Lab

  1. The length of the cord is advisedly adjusted, then that when the weight-hanger just touches the basis,the loop slips off the peg.
  2. A suitable weight is placed in the weight hanger
  3. A chalk mark is made on the rim so that it is against the pointer when the weight hanger just touches the basis.
  4. The other stop of the string is loosely looped around the peg keeping the weight hanger just touching the ground.
  5. The flywheel is given a suitable number (n) of rotation so that the cord is wound round the axle without overlapping.
  6. The pinnacle (h) of the weight hanger from the basis is measured.
  7. The flywheel is released.
  8. The weight hanger descends and the flywheel rotates.
  9. The string slips off from the peg when the weight hanger simply touches the ground.By this time the flywheel would take made n rotations.
  10. A end clock is started but when the weight hanger touches the ground.
  11. The time taken past the flywheel to come up to a cease is determined equally t seconds.
  12. The number of rotations (North) made by the flywheel during this interval is counted.
  13. The experiment is repeated by changing the value of n and m.
  14. From these values the moment of inertia of the flywheel is calculated using equation«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mi»I«/mi»«mo»=«/mo»«mfrac»«mrow»«mi»N«/mi»«mi»m«/mi»«/mrow»«mrow»«mi»N«/mi»«mo»+«/mo»«mi»n«/mi»«/mrow»«/mfrac»«mfenced close=¨]¨ open=¨[¨»«mrow»«mfrac»«mrow»«mn»2«/mn»«mi»g«/mi»«mi»h«/mi»«/mrow»«msup»«mi»§#969;«/mi»«mn»2«/mn»«/msup»«/mfrac»«mo»-«/mo»«msup»«mi»r«/mi»«mn»2«/mn»«/msup»«/mrow»«/mfenced»«/math» .

Observations

  Hateful value of moment of inertia,I =.........kgm2

Consequence

Moment of inertia of the fly wheel =.........kgmtwo

Moment Of Inertia Of Flywheel,

Source: https://vlab.amrita.edu/?sub=1&brch=74&sim=571&cnt=2

Posted by: gonzalezabte1968.blogspot.com

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