84. How has the inertia pendulum Oberbeck if the fall o

Pay with:
i agree with "Terms for Customers"
Sold: 0
Refunds: 0

Uploaded: 29.05.2014
Content: fiz027_84.doc (56,5 kB)


84. How has the inertia pendulum Oberbeck if the fall of cargo weight m = 780 g pendulum starts to rotate and reaches a maximum angular velocity ω = 8,7 s-1 for the time t = 5,5 with? The radius of a pulley r = 42 mm, the gravitational acceleration g = 9,81 m / s2. What is the weight of the rod when the moment of inertia caused by the rods is 40% moment of inertia of the pendulum? Stem length l = 0,4 m.

Additional information

Detailed solution. Decorated in Microsoft Word 2003. (Target decided to use formula editor)


No feedback yet.
1 month 3 months 12 months
0 0 0
0 0 0
In order to counter copyright infringement and property rights, we ask you to immediately inform us at support@plati.market the fact of such violations and to provide us with reliable information confirming your copyrights or rights of ownership. Email must contain your contact information (name, phone number, etc.)