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Hi,
On TBR's CBT test 4 it says, that the pedulum's frequency/period stays the same even though it loses energy. How does this work?
Total E= PE + KE +( friction)
PE=mgL(1-costheta)
KE=1/2mv^2
so as friction or air resistance decreases the total energy, you should travel less distance and also with less speed. But KE is porportional to v^2 whereas PE is proportional to the distance. So shouldn't the v (velocity) be changing MORE, thereby frequency should be increasing?
On TBR's CBT test 4 it says, that the pedulum's frequency/period stays the same even though it loses energy. How does this work?
Total E= PE + KE +( friction)
PE=mgL(1-costheta)
KE=1/2mv^2
so as friction or air resistance decreases the total energy, you should travel less distance and also with less speed. But KE is porportional to v^2 whereas PE is proportional to the distance. So shouldn't the v (velocity) be changing MORE, thereby frequency should be increasing?
