b.lf the effort arm is given 100cm and
effort is 250 N. If the loard arm is 25 cm
calculate the load.
Answers
Explanation:
ANSWER
ANSWERDistance moved by effort is 20m,that of load is 0.8m
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR=
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR=
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.8
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500N
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA=
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA=
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA= 500
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA= 50010000
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA= 50010000
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA= 50010000
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA= 50010000 MA=20
ANSWERDistance moved by effort is 20m,that of load is 0.8mVR= L d E d VR= 0.820 VR=25the load is 10,000N and effort=500NMA= effort d load d MA= 50010000 MA=20Answered By