Can you solve this one yours method are easy & explaination is nice often Its DOM Numericals A connecting rod of mass m = 3x 10-3 kg and I =0.432x10-4 kgm2 is suspended on a knife edge about the upper inner surface of a wrist-pin bearing, When disturbed slightly, the rod was observed to oscillate harmonically with ωn = 6 rad/s. Determine the distance between the support and the C.G ❤
Four masses 150 kg. 200 kg. 100 kg and 250 kg are attached to a shaft revolving at radii 150 mm, 200 mm, 100 mm and 250 mm; in planes A, B, C and D respectively. The planes B, C and D are at distances 350 mm, 500 mm and 800 mm from plane A. The masses in planes B, C and D are at an angle 105°, 200 and 300° measured anticlockwise from mass in plane A. It is required to balance the system by placing the balancing masses in the planes P and Q which are midway between the planes A and B, and between C and D respectively. If the balancing masses revolve at radius 180 mm, find the magnitude and angular positions of the balance masses
Mam please solve this question i doesn't getting the ans in graphical method (please solve this question in graphical method) this question is coming in exam
Can you solve this one yours method are easy & explaination is nice often
Its DOM Numericals
A connecting rod of mass m = 3x 10-3
kg and I =0.432x10-4
kgm2
is suspended on a
knife edge about the upper inner surface of a wrist-pin bearing, When disturbed
slightly, the rod was observed to oscillate harmonically with ωn = 6 rad/s. Determine
the distance between the support and the C.G
❤
Share the playlist of Governor numericals
ruclips.net/p/PLhgXtZ1PS2DrxC3QlpsjyYOgHI9Ec5IVA
Four masses 150 kg. 200 kg. 100 kg and 250 kg are attached to a shaft revolving at radii 150 mm, 200 mm, 100 mm and 250 mm; in planes A, B, C and D respectively. The planes B, C and D are at distances 350 mm, 500 mm and 800 mm from plane A. The masses in planes B, C and D are at an angle 105°, 200 and 300° measured anticlockwise from mass in plane A. It is required to balance the system by placing the balancing masses in the planes P and Q which are midway between the planes A and B, and between C and D respectively. If the balancing masses revolve at radius 180 mm, find the magnitude and angular positions of the balance masses
ruclips.net/video/4l4Z5hO0sB4/видео.html
Mam please solve this question i doesn't getting the ans in graphical method (please solve this question in graphical method) this question is coming in exam
ruclips.net/video/4l4Z5hO0sB4/видео.html