what is Albert Einstein famous for?
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He did some great science and the Physcs Cult won’t even acknowledge his dirty feet.
True or false:
A. With W being kinetic energy, and L being sqrt(1 - v^2/c^2) - because it is the denominator of the "Lorentz factor", the equation Einstein posed to "prove" v < c is:
W = mc^2[ 1/L + 1]. (Eq "IT")
B. In that form of Einstein's very own equation, v cannot be allowed to reach c because that would make L=0 and 1/L infinity; an illegal math operation.
C. Therefor, Einstein pointed out, nothing with mass greater than zero can match the speed of light.
D. Twice Einstein said IT was about objects with mass greater than zero.
E. No child gets out of algebra class without multiplying both sides of an equation by some value or expression.
F. Very obviously legally and simply, we multiply both sides of Einstein's very own IT by L, and get:
W*L = mc^2[ 1 + L]. (Eq "RTTA")
G. In RTTA - still Einstein's very own equation, but in different form - kinetic energy decreases drasticly as v approaches c.
H. The evidence of G is that Einstein's very own equation proves itself by Reduction to the Absurd to be arrant and errant nonsense.
I. In a numerator term there is no mathematic illegality in letting v become c.
J. When v reaches c, Einstein's very own equation, RTTA, becomes:
0 = mc^2. (Eq. "HAH!")
K. Divide both sides of Einstein's very own HAH! by Einstein's very own m>0 and you get c^2 = 0, and a Reduction to the Absurd that proves Einstein's very own equation to be arrant and errant nonsense.
L. Divide both sides of Einstein's very own HAH! by everyone's c^2 and you get Einstein's very own m>0 equalling zero; a Reduction to the Absurd that proves Einstein's very own equation to be arrant and errant nonsense.
M. Einstein's very own derivation of L was based on five illegal non-zero derivatives of a constant, four of which were even then impossible to obtain mathematically, and the fifth was the constant with respect to itself.
True or false:
A. With W being kinetic energy, and L being sqrt(1 - v^2/c^2) - because it is the denominator of the "Lorentz factor", the equation Einstein posed to "prove" v < c is:
W = mc^2[ 1/L + 1]. (Eq "IT")
B. In that form of Einstein's very own equation, v cannot be allowed to reach c because that would make L=0 and 1/L infinity; an illegal math operation.
C. Therefor, Einstein pointed out, nothing with mass greater than zero can match the speed of light.
D. Twice Einstein said IT was about objects with mass greater than zero.
E. No child gets out of algebra class without multiplying both sides of an equation by some value or expression.
F. Very obviously legally and simply, we multiply both sides of Einstein's very own IT by L, and get:
W*L = mc^2[ 1 + L]. (Eq "RTTA")
G. In RTTA - still Einstein's very own equation, but in different form - kinetic energy decreases drasticly as v approaches c.
H. The evidence of G is that Einstein's very own equation proves itself by Reduction to the Absurd to be arrant and errant nonsense.
I. In a numerator term there is no mathematic illegality in letting v become c.
J. When v reaches c, Einstein's very own equation, RTTA, becomes:
0 = mc^2. (Eq. "HAH!")
K. Divide both sides of Einstein's very own HAH! by Einstein's very own m>0 and you get c^2 = 0, and a Reduction to the Absurd that proves Einstein's very own equation to be arrant and errant nonsense.
L. Divide both sides of Einstein's very own HAH! by everyone's c^2 and you get Einstein's very own m>0 equalling zero; a Reduction to the Absurd that proves Einstein's very own equation to be arrant and errant nonsense.
M. Einstein's very own derivation of L was based on five illegal non-zero derivatives of a constant, four of which were even then impossible to obtain mathematically, and the fifth was the constant with respect to itself.
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Hey Brainly users just have a look here...
what is Albert Einstein famous for?
Answer =>
E = MC^2
In physics, mass–energy equivalence states that anything having mass has an equivalent amount of energy and vice versa, with these fundamental quantities directly relating to one another by Albert
Einstein.
what is Albert Einstein famous for?
Answer =>
E = MC^2
In physics, mass–energy equivalence states that anything having mass has an equivalent amount of energy and vice versa, with these fundamental quantities directly relating to one another by Albert
Einstein.
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