A reciprocating pump, weighing 68 kg, is mounted at
the middle of a steel plate of thickness 10mm,
width 500mm, and length 2500mm. clamped along two edges as shown in
Fig. During operation of
the pump, the plate is subjected to a harmonic force, F(t) = 220
cos (62.832t) N. if E=200 Gpa, Find
the amplitude of vibration of the plate
A reciprocating pump, weighing 68 kg, is mounted at the middle of a steel plate of...
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 in., width of 20 in., and clamped along two edges as shown. During operation of pump, the plate is subjected to a harmonic force F(t)-P, . cos(ω·) [lb] 0.5 in. 100 in. where the amplitude of harmonic force is Fo=50 lb and its angular frequency: ω-62832 radl s Model the system as a simple spring and mass system in the horizontal plane....
A reciprocating pump weighing W-150 lb, is mounted at a middle of a steel plate of thickness 0.5 in., width of 20 in., and clamped along two edges as shown. During operation of pump, the plate is subjected to a harmonic force Ft)-Fo.t) ibl. 0.5 in. Fio),x(t) 100 in. where the amplitude of harmonic force is F俨50 lh and its angular frequency: 62.832 radls Model the system as a simple spring and mass system in the horizontal plane. The mass...
A reciprocating pump, weighing 150 Ib, is mounted at middle of a steel along two edges as shown in the figure below. During operation is subjected to a harmonic force, Ft) 50 sin(62.8321) lb. The eam is 1200 lb/in. Determine an equation for the position of the pun ped e beam bending stiffness of the beam clam of the pump, th below the static equilibriu e pump at 0.5 sec assuming an initial displacement of I in. elocity of 1.7...