Assume that each particle contains only combinations of the quarks u, d, and s and the antiquarks u¯, d¯,
part a deduce the quark content of a particle with charge +e, baryon number 0, and strangeness +1.
view available hint(s) deduce the quark content of a particle with charge +e, baryon number 0, and strangeness +1. dds us¯ u¯s uus usd
part b deduce the quark content of a particle with charge +e, baryon number −1, and strangeness +1.
view available hint(s) deduce the quark content of a particle with charge +e, baryon number 1, and strangeness +1. dds us¯ uus d¯d¯s¯ usd
part c deduce the quark content of a particle with charge 0, baryon number +1, and strangeness −2.
Answers: 1
Physics, 22.06.2019 14:00, batmanmarie2004
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Physics, 22.06.2019 23:30, jayv1999
An astronaut on the moon throws a baseball upward. the astronaut is 6 ft, 6 in. tall, and the initial velocity of the ball is 3030 ft per sec. the height s of the ball in feet is given by the equation s equals negative 2.7 t squared plus 30 t plus 6.5s=−2.7t2+30t+6.5, where t is the number of seconds after the ball was thrown. complete parts a and b.
Answers: 2
Physics, 23.06.2019 00:00, jumana3
Does the distance travelled by an oscillating mass between times t=0 and t2 equal the displacement of the particle over the same time period if t2> t/2? hint: consider a sine wave starting at t1=0, then consider a closing wave starting at t1=0, for your explanation.
Answers: 1
Assume that each particle contains only combinations of the quarks u, d, and s and the antiquarks u¯...
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