12.) An electron Complete the following nuclear equations and identify them as alpha, beta, or gamma...
Complete the following nuclear equations. 13. 3K e + 16. 339 Pu → He + alt 14. Be + Be + 8y 17. $U → + 231 Th 15. Li → He + 18. 23491 Pa → + 23492 U Nuclear Decay Series The figure maps the radioactive decay of uranium-238 to lead-206. Use the figure to answe the following questions. By B,Y 19.How many alpha particles are - 2 24 produced as one atom of uraniu
Complete the following nuclear equations. 11. 42 K ve + -1 239 16. Pu 94 He + 2 19 12. 9 Be or + 235, 17. 92 U + 20 13. 6 Li 3 He + 18. 142 Ba + 56 3Kr +3 ) n
19. An isotope with a high value of N/Z will end to decay through: a. alpha decay b. beta decay C. positron decay d. electron capture e. gamma decay 20.Identify the missing species in the following nuclear transmutation: 246Cm +12C 41n+? a. 254No b. 258No c. 238Cf d. 238Th e. none of the above 21. The isotope 42Sc is unstable because: a. the number of neutrons is too large in relation to the number of protons b. the number of...
Nuclear Reactions 1. Complete these nuclear equations. Indicate the symbol, the mass number, and the atomic number 13 27Al +,H→ 22Mg+ 12 2. Fill in the missing particle and establish a type of radioactive decay (alpha, beta, gamma). Twe 28Ni + Ra 204 Pb 3. Balance the following nuclear equations. Indicate if it is a fusion or fission reaction. +3 n 56 140 54 + o n
can i get help with these please. Complete the following nuclear equations. 11. 42 K → e+ 16. 23° Pu He + 94 12. Be or 17. U & 13. Li He + 18. Ba + Kr +3) n 14. Calculate the amount of energy released (in kJ/mol) when 235U reacts with one neutron form Te-137 and Zr-96 and 3 neutrons in a fission reaction. 235U = 235.043915 amu In=1.008664 amu 137Te = 136.925449 amu%Zr = 95.908286 amu 15. Determine...
Complete the following nuclear equations AND indicate whether they are fission or fusion. + alpha decay: 210 pb → 227 AC → beta decay: + 140Ba + 12C → + an 1215n + -1 e 11B + 4He
1.) In a nuclear equation, a neutron can spontaneously change into a(n) alpha particle positron and electron beta particle and proton gamma particle 2.)Identify the following substances involved in radioactive reactions, describing how you obtained the answer: a.An element which undergoes alpha decay to form lead-208 b. The product of the alpha decay of radium-226 c.The product of beta decay of iodine-131
Complete the following nuclear equations AND indicate whether they are fission or fusion. alpha decay: 232Th - beta decay: 231th - 140 Ba + 120 on 126 Sn 11B + 4He
Complete the following nuclear equations AND indicate whether they are fission or fusion alpha decay: 232Th → beta decay: 231Th ön 140 Ba + 12 126Sn + Lje 11B + 4He
Give the nuclear symbol, including superscript and subscript, for each type of radiation. alpha particle: beta particle: gamma ray: ? Which type of radiation has a negative charge? Which type of natural radiation is pure energy? O alpha O gamma O gamma alpha Obeta Obeta Which type of natural radiation has the most massive particles? beta O gamma alpha longest wavelength shortest wavelength Answer Bank a waving flag violet light a low frequency infrared photon an orange photon high frequency...