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Did you deliberately omit the second part of "read and think"?
1) read the book
2) understand what the author was trying to say
3) understand what you agree with the author and what you disagree with
This man is being insolent, rude and familial. I'm responding to his tone.
That's your fig leaf you're trying to use to cover up your limitations.
Increasing and decreasing the weight of the precession gyro
.
.
The weight of the gyro does not change,the response to the support changes.
.
http://www.shipov.com/files/190214-58-mass-depend.pdf
The dependence of mass on velocity is seen at velocities close to the speed of light. There are no such velocities in the question at hand.
That's your fig leaf you're trying to use to cover up your limitations.
Of course it will help - through the randomised controlled trial that all medicines undergo.
TViMS as a panacea !!!
;)))
The weight of the gyroscope does not change,the response to support does.
Pay attention:
"there is a gyroscope on one end of the beam of a lever scale whose weight is balanced by a weight".
When the gyroscope rotates, the equilibrium is broken.
The dependence of mass on speed appears at speeds close to the speed of light. There are no such velocities in the question at hand.
That's what textbooks say. But these textbooks talk about translational motion, and do not say anything about rotational motion.
In fact, such dependence exists for any velocity. Another thing is that for translational motion at low speeds, these effects are extremely small and are not available to current measurement technology, and therefore "does not show up".
Pay attention:
"on one end of the beam of a lever scale is a gyroscope whose weight is balanced by a weight".
When the gyroscope rotates, the equilibrium is disturbed.
And without the weight being balanced, the fulcrum would "lift". Not lifted, of course... but the pressure on it would be reduced.