The 100-kgbolock ASpring)is placed on the top of a sspring Conly oneand then pushed dovwn with a distance d-0.6m from itsngto the current position shown in Fig la. the block A canlengthbe free from the spring and thereno linkage between the blockand the spring. The coefficient of the spring k-400 N/m.is then released, determine the speed of the block whenAIf itopring recoversor compression or block A moving up with o.bm from itsinitial position) astheits original position (i.e., without stretchshown in Fig.lb, and the maximumneighth of the block can reach as shown in Fia.Ic.Olomsk0.8m*1,4mFig. IcFig. laFig 1bbleee

The block, along with spring A are initially at the position of 0.6 m. Block A has a mass of 100 kg…

The 100 ID0-kg A block is placed on the top of a Spring Conly one and then pushed down with a distance d=O.6 m from ite ng Spring) length can to the current position shown in Fig a. the block A be free from the spring and there no linkage between the block A and the spring. The coeffici ent of the opring k=400 N/m. If it is then released, determine the speed of the block when opring recovers or compression or block A moving up with o.bm from its initial position) the its original psition (i.e., without otretch as shown in Fig. 1b, and the maximum neight h of the block can reach as shown in Fig.Ic. A 1.4m 14m 0.8 m* Fig.Ic Fig. la Fig: 1b bleee eeree

The 100 ID0-kg A block is placed on the top of a Spring Conly one and then pushed down with a distance d=O.6 m from ite ng Spring) length can to the current position shown in Fig a. the block A be free from the spring and there no linkage between the block A and the spring. The coeffici ent of the opring k=400 N/m. If it is then released, determine the speed of the block when opring recovers or compression or block A moving up with o.bm from its initial position) the its original psition (i.e., without otretch as shown in Fig. 1b, and the maximum neight h of the block can reach as shown in Fig.Ic. A 1.4m 14m 0.8 m* Fig.Ic Fig. la Fig: 1b bleee eeree

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Question

The 100-kg
bolock A
Spring)
is placed on the top of a sspring Conly one
and then pushed dovwn with a distance d-0.6m from itsng
to the current position shown in Fig la. the block A can
length
be free from the spring and there
no linkage between the block
and the spring. The coefficient of the spring k-400 N/m.
is then released, determine the speed of the block when
A
If it
opring recovers
or compression or block A moving up with o.bm from its
initial position) as
the
its original position (i.e., without stretch
shown in Fig.lb, and the maximum
neight
h of the block can reach as shown in Fia.Ic.
Olomsk
0.8m*
1,4m
Fig. Ic
Fig. la
Fig 1b
bleee

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