Question

In stars, a nuclear reaction can take place in which 612C and 24He combine to form...

In stars, a nuclear reaction can take place in which 612C and 24He combine to form 816O. How much energy is absorbed or released in this reaction? The mass of these isotopes of carbon, helium, and oxygen are m C = 12 u, m He = 4.002 602 u, and m O = 15.994 915 u, respectively

0 0
Add a comment Improve this question Transcribed image text
Know the answer?
Add Answer to:
In stars, a nuclear reaction can take place in which 612C and 24He combine to form...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • Example 2 Calculate the energy released in the following nuclear reaction, given the masses indicated: 23...

    Example 2 Calculate the energy released in the following nuclear reaction, given the masses indicated: 23 U → 232Th + He My-236 = 236.045562 u Mth-232 = 232.038051 u MH-4 = 4.003603 u Example 3 Determine the energy released when a deuterium atom (D) fuses with a tritium atom (T) to form helium, according to the nuclear reaction equation below. Use the given masses. ?H + H → He + In + energy mp = 2.014 10 u my =...

  • 12. Calculate the energy released, in kJ, when 1.00 mol U-238 isotopes (nuclear mass = 238.05078...

    12. Calculate the energy released, in kJ, when 1.00 mol U-238 isotopes (nuclear mass = 238.05078 amu) decays via a particle emission to form thorium-234 (nuclear mass = 234.03596 amu). The nuclear mass of helium-4 is 4.002603 amu. The speed of light = 2.997925x108 m/s and 1 amu = 1.660538x10-24 g

  • In red giant stars three helium atoms fuse together to form a carbon atom via the process 3()+. A) Calculate the Q value (in Mev) for this reaction (this is the energy in the gamma ray photons and kin...

    In red giant stars three helium atoms fuse together to form a carbon atom via the process 3()+. A) Calculate the Q value (in Mev) for this reaction (this is the energy in the gamma ray photons and kinetic energy of the carbon nucleus) B) Assuming the Q value represents the mass converted to energy, determine the mass lost in one reaction. C) now using the energy of betelgeuse, determine the mass lost in one reaction. D) how long can...

  • mass particle mass 239 94 Pu 239.0522 u on 1.0086649 u 0 10 -4 5.4858 x...

    mass particle mass 239 94 Pu 239.0522 u on 1.0086649 u 0 10 -4 5.4858 x 10 u He 4.00260 297 Cm 242.0588 u 0 -4 5.4858 x 10 u Now consider the following nuclear reaction: He 29Cm + on 239 + -. O released absorbed x ? is energy released or absorbed by this reaction? neither released nor absorbed O I need more information to decide If you said energy was released or absorbed, calculate how much energy is...

  • Activity 27-5. Nuclear fusion [Accompanies Section 27-5] In one fusion reaction that occurs in the cores...

    Activity 27-5. Nuclear fusion [Accompanies Section 27-5] In one fusion reaction that occurs in the cores of certain stars, a nucleus of helium-4 (-He, with two protons and two neutrons) fuses with a nucleus of neon-20 (2°Ne, with 10 protons and 10 neutron) to form a nucleus of magnesium-24 (24Mg, with 12 protons and 12 neutrons). A gamma-ray photon (y) is also produced: He + 20Ne + 24 Mg + y (a) Rank the following nuclei in order of their...

  • Precise urements give the fonowing nuclide mass particle mass 238.05079 on 1.0086649 u [c |5.48 x...

    Precise urements give the fonowing nuclide mass particle mass 238.05079 on 1.0086649 u [c |5.48 x 10-4 u e 5.4858 x 10 4u om 234Th 234.04360 u 90 He 4.00260 u Now consider the following nuclear reaction: He 238 234 released O absorbed Is energy released or absorbed by this reaction? neither released nor absorbed I need more information to decide If you said energy was released or absorbed, calculate how much energy is released or absorbed. Give vour answer...

  • HELP PLEASE ITS ON ATOMIC MASS AND NUCLEAR PROCESSES thanks ˝ Astronomy homework - due Friday,...

    HELP PLEASE ITS ON ATOMIC MASS AND NUCLEAR PROCESSES thanks ˝ Astronomy homework - due Friday, Express all your answer in atomic mass units, u (See below.) There is another fusion process for converting hydrogen into helium in stars that have a mass of more than 1.5 M , where 1 M represents the mass of the sun. I've indicated some of the steps in this process below but left out one of the by-products of each reaction. Please determine...

  • Precise measurements give the following masses: particle mass nuclide mass on 1.0086649 u 1.0078 u -4...

    Precise measurements give the following masses: particle mass nuclide mass on 1.0086649 u 1.0078 u -4 je 5.4858 x 10 He 4.00260 u -4 5.4858 x 10 Now consider the following nuclear reaction: 2H + 2,n. He Oreleased absorbed Is energy released or absorbed by this reaction? neither released nor absorbed I need more information to decide. If you said energy was released or absorbed, calculate how much energy is released or absorbed. Give your answer in both kJ/mol and...

  • Precise measurements give the following masses: 4. mass particle 1.0086649 u nuclide mass Pu 239.0522 0...

    Precise measurements give the following masses: 4. mass particle 1.0086649 u nuclide mass Pu 239.0522 0 5.4858 x 10-4u -ie 2stPu |24 1.0569 u 0 e 5.4858 x 10 u Now consider the following nuclear reaction: O released O absorbed Is energy released, or absorbed by this reaction? O neither released nor absorbed O I need more information to decide. If you said energy was released or absorbed, calculate how much energy is released or absorbed. Give your answer in...

  • at is the change in energy for this nuclear reaction? Use the data in the companying...

    at is the change in energy for this nuclear reaction? Use the data in the companying table. Express your answer in scientific notation and to three gnificant figures. Use c = 3.00x10 m/s. 44pu - 141Ba + 915r + 12'n isotope mass, g 244Pu 244.0642 141 Ba 140.9144 915 90.9102 in 1.0087 AE = Fill in the blank to complete the statement. In order to calculate the energy change of a nuclear reaction, the change in mass must be expressed...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT