What is the proton-proton chain process?
This process dominates in stars where the core temperature is less than 15,000,000 K (such as our sun). It consists of three reactions that result in the conversion of six protons into a He nucleus plus two residual protons.
What is the proton-proton chain quizlet?
The proton-proton chain takes the similar hydrogen nuclei and fuses them together to form the larger helium nucleus. Nuclear fission takes a larger nucleus and splits it into smaller nuclei.
Why is energy released in the proton-proton chain?
The proton-proton chain is a nuclear fusion reaction, meaning it releases energy as the energy in the nuclear bonds decreases.
What are the products of the proton-proton chain?
The proton–proton chain, also commonly referred to as the p–p chain, is one of two known sets of nuclear fusion reactions by which stars convert hydrogen to helium.
How does the proton-proton chain produce energy quizlet?
What is the proton proton chain? The process by which hydrogen is turned into helium and we get energy.
Why does the proton-proton chain require high temperatures quizlet?
Why does the proton-proton chain require a high temperature? Protons have a positive charge, so they repel each other.
What nuclear reaction equation summarizes the proton-proton chain which is the source of energy in the Sun?
The overall reaction is: 4 1H+ + 2 e- → 4He2+ + 2 ν
Which of the following best summarizes the proton-proton chain?
Which of the following best summarizes the proton-proton chain? It combines light atomic nuclei into heavier atomic nuclei.
What is the overall result of the proton-proton chain quizlet?
The overall result of the proton-proton chain is: 4 H ( 1 He + energy.
Which of the following best summarizes the proton-proton chain quizlet?
Which of the following best summarizes the proton-proton chain? It combines light atomic nuclei into heavier atomic nuclei.
Why does the proton-proton chain reaction only occur in the core?
The energy is created only in the Sun's core. This is the only region within the Sun with both a high enough temperature (at least 10 million K is necessary), and a high enough density for the nuclear fusion reactions to occur at a self sustaining rate.
Why does the proton-proton chain require high temperatures?
Each reaction requires that the strong electrostatic repulsion of the protons be overcome. This requires high temperatures (so that the nuclei are moving rapidly) and high densities (so the nuclei are close together).
How many nuclear reactions occur in a proton-proton chain quizlet?
The chain consists of 3 nuclear reactions that build a helium nucleus by adding protons one at a time. In the first reaction of the proton-proton chain in hydrogen fusion, two protons combine.
What is the overall fusion reaction that convert mass into other forms of energy in the Suns core?
In the core of the Sun hydrogen is being converted into helium. This is called nuclear fusion. It takes four hydrogen atoms to fuse into each helium atom. During the process some of the mass is converted into energy.
How many nuclear reactions occur in a proton-proton chain?
five reactions The proton–proton chain is, like a decay chain, a series of reactions. The product of one reaction is the starting material of the next reaction. There are two main chains leading from hydrogen to helium in the Sun. One chain has five reactions, the other chain has six.
What is the overall nuclear fusion reaction in the Sun briefly describe the proton-proton chain quizlet?
What is the overall nuclear fusion reaction in the Sun? -Nuclear fusion is the source of all energy the Sun releases into space. –The Sun fuses hydrogen at a steady rate, thanks to a natural feedback process that acts as a thermostat for the Sun's interior (p-p chain).
What is the overall nuclear fusion reaction in the Sun briefly describe the proton-proton chain?
Energy in the Sun is created by nuclear fusion. Four hydrogen nuclei are fused to form one helium nucleus via a series of reactions called the proton-proton chain. The energy comes from the mass difference between the higher mass of the four hydrogen nuclei and the lower mass of the single helium nucleus.
What is the overall fusion reaction that takes place in the cores of all main-sequence stars?
Main sequence stars are characterised by the source of their energy. They are all undergoing fusion of hydrogen into helium within their cores.
What is the overall nuclear fusion reaction in the Sun?
The specific type of fusion that occurs inside of the Sun is known as proton-proton fusion. Inside the Sun, this process begins with protons (which is simply a lone hydrogen nucleus) and through a series of steps, these protons fuse together and are turned into helium.
Why is proton-proton chain reaction important in stellar formation and evolution?
proton-proton chain, also called p-p chain, proton-proton cycle, or proton-proton reaction, chain of thermonuclear reactions that is the chief source of the energy radiated by the Sun and other cool main-sequence stars.
What result from the fusion of nucleus A and nucleus B?
In a nuclear fusion reaction, two nuclei, A & B, fuse to produce a nucleus C, releasing an atom of energy ΔE in the process.
What is the proton-proton chain reaction and how does it relate to the energy production of the Sun?
photons In the proton-proton chain reaction, hydrogen nuclei are converted to helium nuclei through a number of intermediates. The reactions produce high-energy photons (gamma rays) that move through the "radiative layer" surrounding the core. This layer takes up 60 percent of the radius of the Sun.
What is formed when a proton and neutron fuse?
Nuclear fusion is the process by which two light atomic nuclei combine to form one heavier atomic nucleus. As an example, a proton (the nucleus of a hydrogen atom) and a neutron will, under the proper circumstances, combine to form a deuteron (the nucleus of an atom of "heavy hydrogen").
What are the ingredients and the end result of the proton-proton chain Why is energy released in the process?
What are the ingredients and the end result of the proton-proton chain? Why is energy released in the process? 6 Hydrogen atoms, and comes out is Helium nucleus two neutrinos, two positrons — gamma rays.
What is the common end product of proton-proton chain reaction and CNO cycle?
The proton-proton chain and the CNO cycle both convert four hydrogen nuclei into one helium nucleus, releasing energy.
What is the proton-proton chain reaction and how does it relate to the energy production of the sun?
The Sun gets its energy when hydrogen nuclei are fused together to form helium nuclei within the solar core. This hydrogen burning is described by a sequence of nuclear fusion reactions called the proton-proton chain.
What is the common end product of proton-proton chain reaction and CNO cycle Brainly?
The proton-proton chain and the CNO cycle both convert four hydrogen nuclei into one helium nucleus, releasing energy.
What is the product of the CNO cycle?
Answer and Explanation: The net product of the Carbon-Nitrogen-Oxygen (CNO) cycle is helium and carbon-12.
What is the final product of the proton-proton cycle?
Alpha particles Alpha particles are the end product of the proton-proton fusion cycle. They are formed by the fusion of two helium-3 nuclei.
What is the net reaction of the CNO cycle?
CNO Cycle: At the end, you get a 4He nucleus and the 12C nucleus. This 12C nucleus is ready to once again jump back into the cycle. The result is a net conversion of 4 protons into 1 Helium nucleus, with a release of energy in the form of gamma-ray photons, neutrinos, and positrons.