The Gell-Mann-Okuba mass formula defines the mass of baryons as M = M₁ +aY+b + b[1(1+1)_!_y²]. where Mo, a and b are constants, I represents the 4 isospin and Y represents the hypercharge. If the mass of Σ hyperons is same as that of A hyperons, then the correct option(s) is(are) (a) M x 1 (1+1) (b) MoY (c) M does not depend on I (d) M does not depend on Y
The Gell-Mann-Okuba mass formula defines the mass of baryons as M = M₁ +aY+b + b[1(1+1)_!_y²]. where Mo, a and b are constants, I represents the 4 isospin and Y represents the hypercharge. If the mass of Σ hyperons is same as that of A hyperons, then the correct option(s) is(are) (a) M x 1 (1+1) (b) MoY (c) M does not depend on I (d) M does not depend on Y
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![The
defines the
mass of baryons as
M = M₁ +aY+b
² + b[ 1 (1+1) = 1 y ² ] ₁
where Mo, a and b are constants, I represents the
0
isospin and Y represents the hypercharge. If the mass of Σ hyperons is same as that of
A hyperons, then the correct option(s) is(are)
(a) M x I(1+1)
(b) MoY
(c) M does not depend on I
(d) M does not depend on Y
Gell-Mann-Okuba
mass formula](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc1bd6b64-9689-4ddb-80a0-c3c9eaae056f%2F1277fe01-7b5d-43e6-b3bd-3b009326d49b%2F8z9duv_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The
defines the
mass of baryons as
M = M₁ +aY+b
² + b[ 1 (1+1) = 1 y ² ] ₁
where Mo, a and b are constants, I represents the
0
isospin and Y represents the hypercharge. If the mass of Σ hyperons is same as that of
A hyperons, then the correct option(s) is(are)
(a) M x I(1+1)
(b) MoY
(c) M does not depend on I
(d) M does not depend on Y
Gell-Mann-Okuba
mass formula
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