
1. Complete the following nuclear reactions: (a) 150 + 150 → He + (b) 299 +...
1) Complete the following Nuclear Reactions: 27&Ra → He + 232U → -18 + 2Be → _18+ 284Po → +iB + 234Th → He+ 2) Write the nuclear reaction for the alpha decay of 23 3) Write the nuclear reaction for the Beta decay of 23 Pa 4) Write the nuclear reaction for the Positron emission of 130
Nuclear Reactions and Their Applications 1. Which one of the following is an incorrect representation of the indicated particle or nucleus? D) alpha particle: He B) neutron: E) proton: helium-3: He B positron: A) ip Rn? 3. Which one of the following equations correctly represents alpha decay of Rn → Po + He Rn Pb + He → Fr + B Rn + He Ra At + B C) Rn 4. Select the nuclide that completes the following nuclear reaction....
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
(8 pts) 17. Write balanced reactions for the following nuclear processes. 5926 Fe + 42He → 3015P + 208 T + Alpha decay of 2128Bǐ 計 24194Pu → 24 195Am + 129sl+0.p 53
Lab Questions: 1. Complete the following nuclear equations: 234 U 234 Np + 92 93 214 Ро 84 210 Pb 82 234 Th 90 + 4 He 2 254 0 U 92 + e 2. Write a balanced equation for each of the following nuclear reactions
1. Write balanced equations for the following nuclear reactions: a) Naturally occurring thorium-232 undergoes a decay. b) Chlorine-36 undergoes electron capture. c) Oxygen-15 undergoes positron emission. Plan: Write a skeleton equation; balance the number of neutrons and charges; solve for the unknown nuclide. 2. Problem: Predict the mode of decay of a) plutomium-239, b) indium-120, c) xenon-118.
Complete and balance the following nuclear equations by supplying the missing particle: (a) 'N + He - ? + H (b) K + -e (orbital electron) (c) ? + He Qsi + H (d) Fe + 2 en Co + ? ? 14
he following nuclear reactions by the type of nuclear decay represented. Alpha Decay 213Bi — 20874 + ja Beta Decay 223Fr — 223Ra +-1B ZiNa - Mg + -1B Positron Emission Ti + B 1930d + -je – 1934 196 Pt + -le 1891 Elec Electron Capture
1. Complete and balance the following equations for nuclear reactions that are used in particle accelerators to make elements beyond uranium: (a) He + 25. Es ? +2.n (b) 249CF +? 187 Lr + 2n (c) 235 U + C Cf + ?
Complete the following nuclear equation by giving the name, atomic number, and mass number of the element made by this reaction. Give all nuclei in the form A X Z . 209 Bi 83 + 58 Fe 26 → ? + 1 n 0 name: atomic number = mass number =