After the collapse of a nebular cloud, atoms begin gravitating together to form a condensed center. What happens next in the star formation process?

Answers

Answer 1

Answer:

Depending upon the mass gathered, the next process formation varies:

Nuclear fusion can kick in leading to formation of star. The nuclei fuse to together and energy is liberated in the form of light and heat.

If sufficient mass is not gathered to start nuclear fusion reaction, gaseous planet forms like Jupiter.

In third case, even though sufficient mass is present (twice the mass of Jupiter) still no fusion reaction starts. Such bodies are known as failed stars or brown dwarfs.

Answer 2

Answer: After the collapse of a nebular cloud and atoms begin gravitating together to form a condensed center, what happens next in the star formation process is that the compression and collapse of the star stops if it is hot and dense enough. It becomes a "protostar".

Related Questions

As a consequence of the discovery of the nucleus by Rutherford, which model of the atom is thought to be true?Protons, electrons, and neutrons are evenly distributed throughout the volume of the atom. Electrons are distributed around the nucleus and occupy almost all the volume of the atom. The nucleus is made of electrons and protons. The nucleus is made of protons, electrons, and neutrons.
Explain why phosphoric acid is needed for the battery to operate
Select all that apply. The three subatomic particles are _____. neurons photons protons neutrons charges electrons
Formula for the compound that contains Mg2+ and O2-
Two scientists wrote a paper detailing their research and conclusions and submitted it to a scientific journal. Several months later, they received the paper back from the publisher with many comments attached from several fellow scientists. What is most likely the next step taken by the authors of the paper?

How does an object's mechanical energy change as its speed (velocity) increases?

Answers

Answer:

The mechanical energy of the system increases, provided there is no loss of energy due to friction. The energy would transform to kinetic energy when the speed is increasing. The mechanical energy of the system remains constant provided there is no loss of energy due to friction.

Explanation:

Final answer:

An object's mechanical energy generally increases as its velocity increases. This is because mechanical energy is the sum of an object's kinetic and potential energy, and kinetic energy is directly proportional to the square of its velocity.

Explanation:

In physics, mechanical energy is the energy that an object has due to its motion (kinetic energy) and position (potential energy). When an object's speed or velocity changes, specifically increases, so does its kinetic energy, as kinetic energy is directly proportional to the square of the object's velocity. Essentially, if an object's velocity doubles, its kinetic energy would quadruple. However, this does not take into account variables like air resistance, friction, or changes in potential energy. In an ideal, frictionless scenario, an increase in an object's velocity directly results in an increase in its mechanical energy.

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The part of the atom that carries a positive charge is the _____, and the part that carries a neutral charge is the _____.neutron; proton
electron; proton
proton; electron
proton; neutron

Answers

Answer : Option D) Proton and Neutron.

Explanation : The part of the atom that carries a positive charge is the proton, and the part that carries a neutral charge is the neutron.

A proton is a small subatomic particle, denoted by symbol $p or p^(⁺)$ , with a positive electric charge of +1 e elementary charge and a mass which is slightly less than that of a neutron. It is located at the center o atomic nucleus along with neutron. The number of protons are equal to the number of electrons of that atom but are in opposite charges.

A neutron is a subatomic particle of an atom which is of the same mass as that of proton but without an electric charge, it is present in all atomic nuclei except those of ordinary hydrogen. It is also located at the center of an atomic nucleus.

Proton; neutron
Protons have a positive charge
Neutrons are neutral
Electrons have a negative charge :)

Positrons are spontaneously emitted from the nuclei of(1) potassium-37 (3) nitrogen-16
(2) radium-226 (4) thorium-232

Answers

Answer: Option (1) is the correct answer.

Explanation:

A positron is a small particle which contains a +1 charge and its mass is equal to the mass of an electron, that is, $9.109 * 10^(-31)$ kg.

A positron is represent by the symbol $^(0)_(+1)\beta$ .

For example, $^(37)_(19)K \rightarrow ^(37)_(18)Ar + ^(0)_(+1)\beta$

Whereas nitrogen-16 does not decay to give a positron because nitrogen-16 is the daughter isotope formed due to decay of oxygen-16.

The decay reaction is as follows.

$^(16)_(8)O \rightarrow ^(16)_(7)N + ^(0)_(+1)\beta$

And, on radioactive decay of thorium-232 there will be formation of radium-228 along with emission of an alpha particle.

The reaction will be as follows.

$^(232)_(90)Th \rightarrow ^(228)_(88)Ra + ^(4)_(2)\alpha$

Therefore, we can conclude that out of the given options positrons are spontaneously emitted from the nuclei of potassium-37.

Positrons are spontaneously emitted from the nuclei of potassium -37.

Acetylene gas (C2H2) is produced as a result of the following reaction. CaC2 (s) + 2H20(I) -> C2H2(g) + Ca (OH)2 (aq) a. If 3.20 moles of CaC2 are consumed in this reaction, how many grams of H2O are needed? Given: Requested:

Answers

Answer:approximately 115.33 grams of H2O are needed to react with 3.20 moles of CaC2 in the given reaction.

Explanation:To determine how many grams of H2O are needed to react with 3.20 moles of CaC2 in the given reaction, we can use stoichiometry and the molar ratios between CaC2 and H2O in the balanced chemical equation.

First, let's write down the balanced chemical equation:

CaC2 (s) + 2H2O (l) -> C2H2 (g) + Ca(OH)2 (aq)

From the balanced equation, we can see that 1 mole of CaC2 reacts with 2 moles of H2O.

Now, let's use this information to calculate the moles of H2O required to react with 3.20 moles of CaC2:

Moles of H2O = (3.20 moles CaC2) * (2 moles H2O / 1 mole CaC2)

Moles of H2O = 3.20 moles * 2

Moles of H2O = 6.40 moles

Now that we know we need 6.40 moles of H2O, we can calculate the grams of H2O needed using the molar mass of H2O:

Molar mass of H2O = 2(1.01 g/mol) + 16.00 g/mol = 2.02 g/mol + 16.00 g/mol = 18.02 g/mol

Now, calculate the grams of H2O:

Grams of H2O = (6.40 moles) * (18.02 g/mol)

Grams of H2O ≈ 115.33 grams

So, approximately 115.33 grams of H2O are needed to react with 3.20 moles of CaC2 in the given reaction.

The best method of developing a paragraph about a landscape would be _____.chronological
spatial
particular
contrast

Answers

The best answer is "spatial" because a landscape is by definition, a wide open area. A paragraph using the other three methods would not be the best.

Explain what you think what happen to rubber if too manyn cross limks are formed.

Answers

Answer:

The rubber becomes brittle and can break in your hand. The explanation for why this happens concerns cross-linking bonds. Ultra-violet light from the sun provides the polymer molecules with the activation energy they need to be able to form more cross-links with other chains.

Final answer:

If excessively excessive cross-links are formed in rubber, it becomes overly rigid and brittle, hampering its natural elasticity and strength. The increase in cross-links restricts the moving of the polymer chains, undermining the effectiveness of the rubber in many applications.

Explanation:

The formation of cross-links in rubber significantly affects its properties. In the case where too many cross-links are formed, the rubber is likely to become overly rigid and brittle. This is because the cross-links restrict the movement of the polymer chains, which reduces flexibility and elasticity. As a result, too many cross-links can compromise the usefulness of rubber for many applications, which require its natural elasticity and strength. For example, in a rubber band, if too many cross-links were formed, then it would be less stretchy and snap more easily when stretched.

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An example of an atom that has no charge is one that hasA. 1 proton, 2 electrons, and 3 neutrons. B. 3 protons, 1 electron, and 3 neutrons. C. 2 protons, 2 electrons, and 1 neutron. D. 3 protons, 2 electrons, and 1 neutron.

What best describes how the testing of the initial version and the testing of the beta version fit into the four stages of the process of technological design

Within each energy level there are different sublevels that are created. Those electrons that have the lowestamount of energy follow paths that are spherical in shape. Which sublevel is associated with this shape?A)d.B)fC)рD)S

Critical thinking requires that