Help 19. Calculate the amount of energy in kJ released during the decay of one mole...
mass (/mol) 3.0160492 2.01410178 4.002602 1.008664 8. Calculate the energy released (per mole of He-4 produced) Pr for the following fusion reaction: tritium reacts with deuterium to make helium and a neutron, Tritium CH) Deuterium CH) Helium-4 (He) Neutron
thx 29. Using the exact masses given below, calculate the amount of energy released (in J) when one mole of 90sr decays by B decay. 90 (89.907152 amu) 9r (89.907738 amu) B particle (0.000548 amu) B) 4.3 x 108 C) 1.3 x 1010 E) 5.8 x 109 A) 5.3 x 1010 D) 8.8 x 108 30. A certain complex ion has a A (crystal field splitting) of 240 kJ/mol. What wavelength should correspond to an absorbance peak in the spectrum...
For the different possible fission and fusion reactions given below, calculate the energy released during the process (n = neutron, pt = proton): a. 235U+n → 144Ba + Kr + 2n b. 235U +n 141Ba +9Kr + 3n c. 235U +n + "Zr + 139Te + 3n d. 2H+ ?H e. He + "Li 2 'He+p "He +n
A. Calculate the energy in MeV released in a β+ decay of 22Na. Assume that the masses of 22Na and 22Ne are 21.994497 and 21.990439 u, respectively. B.The laser system tested for inertial confinement can produce a 109.6 kJ pulse only 1.1 ns in duration. How many photons (in terms of 1023 photons) are in the pulse if their wavelength is 0.97 μm? C.Calculate the energy in MeV released in a α decay of 249Cf. Assume that the masses of...
1. Calculate the amount of energy released in the formation of one mole of BeS bonds (not lattice energy). The radius of the beryllium ion is 0.31 Å, and the radius of the sulfide ion is 1.84 Å. Note that 1Å=10−10m. 2. Arrange the following ionic compounds in order of decreasing amount of energy released in lattice formation: LiF, CaS, GaN, and RbBr.
24. What quantity of energy is released for alpha decay 236TT) mass He: 4.002604 amu 232Th 232.038124 amu 236U: 236.045637 amu A. 1.473 x 108 kJ/mol B. 4.418 x 10 kJ/mol C. 4.909×10' kJ/mol D. 7.209×10 kJ/mol E. 4.909×10'' kJ/mol
What quantity of energy would be produced when one mole of deuterium reacts with one mole of tritium to form helium and a neutron? You may use the information provided below in your calculations. [Hint: 1 J =1 kg m2/s2] 2D isotopic mass = 2.0141 g/mol 3T isotopic mass = 3.0160 g/mol 4He isotopic mass = 4.0026 g/mol Neutron mass = 1.0087 g/mol Electron mass = 5.486 × 10-4 g/mol Speed of light = 2.998 × 108m/s a. 1.6 ×...
Question 7 of 10 Calculate the energy released as heat when 17.8 g of liquid mercury at Constants for mercury at 1 atm 25.00 °C is converted to solid mercury at its melting point. heat capacity of Hg() 28.0 J/(mol-K) melting point 234.32 K enthalpy of fusion 2.29 kJ/mol kJ q =
1. The energy released when a mole of neutrons (1.00866 AMU) changes into a mole of protons (1.00728 AMU) is a. 9.0655 x 1013 kJ b. 9.0655 x 1016 kJ c. 1.240 x 1014 kJ d. 1.240 x 1011 kJ 2. A student is trying to electroplate a plastic spoon with silver. The student has an external power source and a silver electrode as well as aqueous silver solution. When put together in the correct sequence, what will be the...
d two moles of hydrochlorhermal energy arck on the su ®, 150,0 kJ of thermal serey are released at 25.00°C and o the surroundings as work is d only P- 7. When one mole of zinc and two moles of hydrochloric acid undergo the read Zn(s) + 2 HCl(aq) → ZnCl, (aq) + He), 150,0 kJ of thermal energy are reicas 1.000 atm. The Ha gas generated does approximately 2 500 KJ of work on the surroundings as expands. Calculate...