The TOP number is the total baryons inside the nucleus (baryons are groupingsof 3 quarks; outside of a nucleus, the only stable baryons are protons andneutrons). According to the table on the left (below), the baryon number of anegative beta particle isNameSymbol(s)RepresentationNuclear Equation fill in the gapsDescriptionSly→„Cr+B 70Ge→ Ga+e*Alpha particleHe or fa(High-energy) helium nuclei consisting of two protonsand two neutronsBeta particlefe or BV→"Ti +"C"N+(High-energy) electrons22fe or fBParticles with the same mass as an electron but with1 unit of positive chargePositron„U→"Th+10550Sn +Th Th+7 210 Po- Pb+ a105929050H or tpProtonNuclei of hydrogen atomsParticles with a mass approximately equal tothat of a proton but with no chargeNeutronYour answer

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The TOP number is the total baryons inside the nucleus (baryons are groupings of 3 quarks; outside of a nucleus, the only stable baryons are protons and neutrons). According to the table on the left (below), the baryon number of a negative beta particle is Description Nuclear Equation fill in the gaps Name Symbol(s) Representation (High-energy) helium nuclei consisting of two protons and two neutrons Sly→„Cr+B 70Ge→Ga+e* Alpha particle He or fa "C-"N + Beta particle fe or B (High-energy) electrons 22 fe or fB Particles with the same mass as an electron but with 1 unit of positive charge Positron Sn-+ 105 50 105 92 90 50 Proton IH or tp Nuclei of hydrogen atoms Th Th+7 210 Po- Pb+ a Particles with a mass approximately equal to that of a proton but with no charge Neutron Your answer

The TOP number is the total baryons inside the nucleus (baryons are groupings of 3 quarks; outside of a nucleus, the only stable baryons are protons and neutrons). According to the table on the left (below), the baryon number of a negative beta particle is Description Nuclear Equation fill in the gaps Name Symbol(s) Representation (High-energy) helium nuclei consisting of two protons and two neutrons Sly→„Cr+B 70Ge→Ga+e* Alpha particle He or fa "C-"N + Beta particle fe or B (High-energy) electrons 22 fe or fB Particles with the same mass as an electron but with 1 unit of positive charge Positron Sn-+ 105 50 105 92 90 50 Proton IH or tp Nuclei of hydrogen atoms Th Th+7 210 Po- Pb+ a Particles with a mass approximately equal to that of a proton but with no charge Neutron Your answer

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Question 5 The origin of the eEnergy released by a nuclear reaction O The number of atoms decrease upon reaction and the difference is converted into energy O The density of atoms decrease upon reaction and the difference is converted into energy The mass of the atoms decrease upon reaqtion and the difference is converted into energy O All of the above O Non of the above A Moving to the next question prevents changes to this answer.
PRACTICE QUESTIONS 42 of 48 Radioisotopes are used in computer screens in galvanic cells as tracers in scientific studies in rechargeable batteries Question 43 of 48 What is the nuclear binding energy for a mole of beryllium (Be-9), whose mass is 9.01218? (mass of a proton = 1.00728 AMU; neutron = 1.00866) 5.41x1015J 5.41x1012J 8.11x1017J 8.11x1014J