Answer: 0.001 m
Explanation:
In order to get the máximum height reached by the iron block, we can use the energy conservation principle, as all the kinetic energy impressed upon the iron blck by the rubber bullet during the collision, becomes gravitational potential energy, as follows:
½ m v2 = m. g. h (1)
We don´t know the value of v, but if we look to the collision, and we asume no external forces act during it, the total momentum must be conserved.
The initial momentum, as the block is at rest, is just the one due to the rubber bullet:
P1 = mb . vb = 0.025 kg. 50 m/s = 1.25 kg. m/s
The final momemtum, is just the sum of the one due to the bullet (after being bounced back) and the one for the iron block:
P2 = mb . vfb + mib . vib= 0.025 Kg. (-35 m/s) + 15 Kg.vib
As we have already said, P1 = P2, so we can write the following equation:
0.025 Kg. (-35 m/s) + 15 Kg. vib = 1.25 Kg. m/s.
Solving for vib, we have:
vib = 0.14 m/s
Now, we can replace this value in the equation (1) above:
½ . 15 Kg. (0.14)2 (m/s)2 = 15 Kg. 9.8 m/s2. H
Solving for H, we have:
H = 0.001 m
The maximum height H is mathematically given as
H=0.001m
Question Parameters:
A rubber bullet of mass m=0.025kg
velocity v_0 = 50
v 0 =50m/s
M=15kg
v_1 = 35
Generally, the equation for the Potential and Kinetic energy is mathematically given as
K.E=0.5 m v2
P.E = m. g. h
Where momentum is
P1 = mb . vb
P1=0.025*50
P1= 1.25 kg.
and
P2 = mb *vfb + mib * vib
P2= 0.025 *-35 + 15*.vib
Where
P1=P2
vib=0.14 m/s
In conclusion, since K.E=P.E
0.5*15 Kg. (0.14)2 (m/s)2 = 15 Kg*9.8* H
H=0.001m
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