Solved

It Is Believed That Two Carbon-12 Nuclei Can React in the Core

Question 82

Multiple Choice

It is believed that two carbon-12 nuclei can react in the core of a supergiant star to form sodium-23 and hydrogen-1. Calculate the energy released from this reaction for each mole of hydrogen formed. The masses of carbon-12, sodium-23, and hydrogen-1 are 12.0000 amu, 22.989767 amu, and 1.007825, respectively. It is believed that two carbon-12 nuclei can react in the core of a supergiant star to form sodium-23 and hydrogen-1. Calculate the energy released from this reaction for each mole of hydrogen formed. The masses of carbon-12, sodium-23, and hydrogen-1 are 12.0000 amu, 22.989767 amu, and 1.007825, respectively. A) 2.16 × 10<sup>14 </sup>kJ B) 2.16 × 10<sup>11 </sup>kJ C) 2.16 × 10<sup>8 </sup>kJ D) 2.16 × 10<sup>5 </sup>kJ E) none of the above


A) 2.16 × 1014 kJ
B) 2.16 × 1011 kJ
C) 2.16 × 108 kJ
D) 2.16 × 105 kJ
E) none of the above

Correct Answer:

verifed

Verified

Unlock this answer now
Get Access to more Verified Answers free of charge

Related Questions

Q54: A N-14 nucleus is hit by a

Q72: So-called "magic numbers" of particles are thought

Q77: Select the nuclide that completes the following

Q79: Iodine-131, t<sub>1/2</sub> = 8.0 days, is used

Q80: An isotope with Z > 83, which

Q81: The radioisotope <img src="https://d2lvgg3v3hfg70.cloudfront.net/TB5833/.jpg" alt="The radioisotope

Q83: Which one of the following equations correctly

Q84: Briefly, explain the relationship between the rad

Q85: The nuclide Pb-210 undergoes three successive decays

Q86: Identify the missing species in the following