questioning life
Mossabauer Effect
The same phenomenon is seen in Mossabauer Effect where iron isotopes of mass 57 which emits roughly 12 waves per second, were mounted on aluminium disc 6 inches in diameter. A narrow beam of gamma rays emitted from this isotopes is directed towards an absorber made up of the same isotopes of iron , on the circumference of the turn- table . The nucleus of the emitter and the absorber formed , so to say , two pendulum. Beyond the circumference was a stationary photon counter to record those photons that passes through the absorber with out producing resonance. Now the absorber is a kind of moving clock. Each photon that is absorbed is one tick of the “clock” in unison and each photon that gets through the absorber gives a tick that the moving clock has missed . Mossabauer found that when the disc was at rest perfect resonance would occur . After anchoring the emitter and the absorber to prevent their recoiling on the emission and absorption of photons , he rotated the disc at 50 to 500 revolutions per second for 30 minutes . he found that the frequency of the photons emitted by the central clock is different from those of the photons of the “absorber clock ”on the rim. The inertial forces were the new stimulus to radioactive clocks placed at centre and at the rim. The clock at the centre were subjected to different inertial force than the clock at the rim. So there were two different stimulus to trigger different thoughts of different half lives or decay of two different atomic clocks . Thus synchronisation in their working is hampered and thus lack of synchronism was there. We, therefore, conclude that the frequency of vibration or time period or decay of radioactive atom is changed due to both inertial forces (a) or due to gravity (g). Both the events were triggered by change of thoughts of half lives of atomic clocks. Unless there is change in thoughts of that event , one cannot see the changed effects. This change is conditioned in both the events . ( Figure-23 and Figure -24) . It does not mean that principle of equivalence is right. There is difference in gravitational acceleration ( g ) and acceleration of objects other than gravity ( a) . Einstein has wrongly made principle of equivalence i.e. . There is no way for an observer in a closed laboratory to distinguish between the effects produced by a gravitational field and those produced by an acceleration of the laboratory .
