Thank You for post ( I understand and respect Your words )
very slowly can we speak about below example ?
a- apparent point
(m)---pipe---(m) ------> Vo
You .... and.... Me we look on masses m
( vo respect to a point )
Inside pipe we have ideal explosive material 1 jules ( master )
(equal forces work on each mass m ( zero friction inside pipe )
You and me see situation after short time ( many people confirmed and I'm sure V1=V1
<----V1- (m) .....pipe ...... (m) -V1----->
ok
My question how many % of energy from 1 joul took Your mass
and how many % took my mass
50% / 50 % ? ( impossible ? why impossible ?)
please take a pencil make kinetic parabola graph respect to apparent point ( apparent point = stationary point for any bodies in the universe )
before explosion pipe and masses inside pipe have Vo velocity
after explosion
V2= Vo-V1 and V3= Vo+V1
How big Delta E take left mass and right mass
very easy test ( red / blue ) air cappacity shift
do You understand that I know that V1 = V1 problem is how many energy cost symetry situation
http://3.bp.blogspot.com/-3EPlifUKbIQ/UZ...oppler+ROOT.JPG ****
Homework star question ?
what if Vo = 2 m/s ( respect to apparent point )
and V1 = 2m/s
(Your mass absolute stop ) My mass change velocity from