Focus on the first nuclear equation shown below (vanadium on the left side of the arrow, chromium and beta particle on the right). Which expression below best explains why the bottom numbers (total electric charge) on both sides of the arrow are balanced? Symbol(s) Nuclear Equation fill in the gaps Name Representation Description 3ly→ Cr+B Ge→ Ga+e 70 He or a (High-energy) helium nuclei consisting of two protons and two neutrons Alpha particle e or B "C→"N+] Beta particle (High-energy) electrons 23 Particles with the same mass as an electron but with Positron fe or fB 92U→Th+ 105 50 1 unit of positive charge Sn→+ 105 50 Proton H or tp Nuclei of hydrogen atoms 210 00th Th+y 1° Po Pb+ a Particles with a mass approximately equal to that of a proton but with no charge Neutron 23 = 24 + (-1) 23 + 1 = 24 24 + (-1) = 23 O 24 = 23+1

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Focus on the first nuclear equation shown below (vanadium on the left side of the arrow, chromium and beta particle on the right). Which expression below best explains why the bottom numbers (total electric charge) on both sides of the arrow are balanced? Symbol(s) Representation Nuclear Equation fill in the gaps Name Description sly→ Cr+B Ge→ Ga+e* 70 He or fa (High-energy) helium nuclei consisting of two protons and two neutrons Alpha particle VTi+ "C→"N+] Beta particle e or B (High-energy) electrons 23 fe or fB Particles with the same mass as an electron but with 1 unit of positive charge Positron „U→Th+ Sn→+ 105 50 105 92 50 Proton IH or ip Nuclei of hydrogen atoms 00Th Th+y 210 Po→ Pb+ a Particles with a mass approximately equal to that of a proton but with no charge Neutron 23 = 24 + (-1) 23 + 1 = 24 24 + (-1) = 23 O 24 = 23 +1