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Hint: As we know mass is commonly measured by how much something weighs. Now, just find the number of subatomic particles and their mass in the species provided and try to figure out what could be the possible order of masses. Complete step by step answer: First, you should be aware of the mass of the proton (mp), which is 1.6726×${ 10 }^{ -27 }$ kg, From all these statements we can conclude that alpha particles have the greatest mass among all the options given. Therefore, we can conclude that the correct answer to this question is option A. Note: We can also arrange these species in the increasing order of their masses - A typical atom consists of three subatomic particles: protons, neutrons, and electrons (as seen in the helium atom below). Other particles exist as well, such as alpha and beta particles (which are discussed below). The
Bohr model shows the three basic subatomic particles in a simple manner. Most of an atom's mass is in the nucleus—a small, dense area at the center of
every atom, composed of nucleons. Nucleons include protons and neutrons. All the positive charge of an atom is contained in the nucleus, and originates from the protons. Neutrons are neutrally-charged. Electrons, which are negatively-charged, are located outside of the nucleus. The Bohr model is outdated, but it depicts the three basic subatomic particles in a comprehensible way. Electron clouds are more accurate representations of where electrons are found. Darker areas represent where the electrons are more likely to be found, and lighter areas represent where they are less likely to be found.
ProtonsProtons were discovered by Ernest Rutherford in the year 1919, when he performed his gold foil experiment. He projected alpha particles (helium nuclei) at gold foil, and the positive alpha particles were deflected. He concluded that protons exist in a nucleus and have a positive nuclear charge. The atomic number or proton number is the number of protons present in an atom. The atomic number determines an element (e.g., the element of atomic number 6 is carbon). ElectronsElectrons were discovered by Sir John Joseph Thomson in 1897. After many experiments involving cathode rays, J.J. Thomson demonstrated the ratio of mass to electric charge of cathode rays. He confirmed that cathode rays are fundamental particles that are negatively-charged; these cathode rays became known as electrons. Robert Millikan, through oil drop experiments, found the value of the electronic charge. Electrons are located in an electron cloud, which is the area surrounding the nucleus of the atom. There is usually a higher probability of finding an electron closer to to the nucleus of an atom. Electrons can abbreviated as e-. Electrons have a negative charge that is equal in magnitude to the positive charge of the protons. However, their mass is considerably less than that of a proton or neutron (and as such is usually considered insignificant). Unequal amounts of protons and electrons create ions: positive cations or negative anions. NeutronsNeutrons were discovered by James Chadwick in 1932, when he demonstrated that penetrating radiation incorporated beams of neutral particles. Neutrons are located in the nucleus with the protons. Along with protons, they make up almost all of the mass of the atom. The number of neutrons is called the neutron number and can be found by subtracting the proton number from the atomic mass number. The neutrons in an element determine the isotope of an atom, and often its stability. The number of neutrons is not necessarily equal to the number of protons. IdentificationBoth of the following are appropriate ways of representing the composition of a particular atom: Often the proton number is not indicated because the elemental symbol conveys the same information. Consider a neutral atom of carbon: \(\ce{^{12}_{6}C}\). The atomic mass number of Carbon is 12 amu, the proton number is 6, and it has no charge. In neutral atoms, the charge is omitted. Above is the atomic symbol for helium from the periodic table, with the atomic number, elemental symbol, and mass indicated. Every element has a specific number of protons, so the proton number is not always written (as in the second method above).
Note: The atomic mass number is not the same as the atomic mass seen on the periodic table. Click here for more information. Other Basic Atomic ParticlesMany of these particles (explained in detail below) are emitted through radioactive decay. Click here for more information. Also note that many forms of radioactive decay emit gamma rays, which are not particles. Alpha ParticlesAlpha particles can be denoted by He2+,α2+, or just α. They are helium nuclei, which consist of two protons and two neutrons. The net spin on an alpha particle is zero. They result from large, unstable atoms through a process called alpha decay. Alpha decay is the process by which an atom emits an alpha particle, thereby becoming a new element. This only occurs in elements with large, radioactive nuclei. The smallest noted element that emits alpha particles is element 52, tellurium. Alpha particles are generally not harmful. They can be easily stopped by a single sheet of paper or by one's skin. However, they can cause considerable damage to the insides of one's body. Alpha decay is used as a safe power source for radioisotope generators used in artificial heart pacemakers and space probes. Figure: Alpha Decay involves the emission of an alpha particle from the nucleusBeta ParticlesBeta particles (β) are either free electrons or positrons with high energy and high speed; they are emitted in a process called beta decay. Positrons have the exact same mass as an electron, but are positively-charged. There are two forms of beta decay: the emission of electrons, and the emission of positrons. Beta particles, which are 100 times more penetrating than alpha particles, can be stopped by household items like wood or an aluminum plate or sheet. Beta particles have the ability to penetrate living matter and can sometimes alter the structure of molecules they strike. The alteration usually is considered damage, and can cause cancer and death. In contrast to beta particle's harmful effects, they can also be used in radiation to treat cancer. Beta- (β-) or Electron EmissionElectron emission may result when excess neutrons make the nucleus of an atom unstable. As a result, one of the neutrons decays into a proton, an electron, and an anti-neutrino. The proton remains in the nucleus, and the electron and anti-neutrino are emitted. The electron is called a beta particle. The equation for this process is given below: \[ _{1}^{0}\textrm{n}\rightarrow {_{1}^{1}\textrm{p}}^+ + \textrm{e}^- + \bar{\nu_{e}} \]
β- Decay Beta+(β+) or Positron EmissionPosition emission occurs when an excess of protons makes the atom unstable. In this process, a proton is converted into a neutron, a positron, and a neutrino. While the neutron remains in the nucleus, the positron and the neutrino are emitted. The positron can be called a beta particle in this instance. The equation for this process is given below: \[ { _{1}^{1}\textrm{p}}^+ \rightarrow _{1}^{0}\textrm{n} + \textrm{e}^+ + \nu_{e} \]
β+ Decay Outside Links
References
Problems1. Identify the number of protons, electrons, and neutrons in the following atom. 2. Identify the subatomic particles (protons, electrons, neutrons, and positrons) present in the following:
3. Given the following, identify the subatomic particles present. (The periodic table is required to solve these problems)
4. Arrange the following elements in order of increasing (a) number of protons; (b) number of neutrons; (c) mass. 27Co, when A=59; 56Fe, when Z=26; 5. Fill in the rest of the table:
Solutions and Explanations1. There are 4 protons, 5 neutrons, and 4 electrons. This is a neutral beryllium atom. 2. Identify the subatomic particles present in the following:
3. Given the following, identify the subatomic particles present. (The periodic table is required to solve these problems)
4. Arrange the following lements in order of increasing (a) number of protons; (b) number of neutrons; (c) atomic mass. a) Na, Mn, Fe, Co, Cu, Br
b) Na, Cu, Fe, Mn, Co, Br
Note: Cu, Fe, Mn are all equal in their number of neutrons, which is 30. c) Na, Mn, Fe, Co, Cu, Br
Note: This is the same order as the number of protons, because as Atomic Number(Z) increases so does Atomic Mass. 5. Fill in the rest of the table:
Note: Atomic Number=Number of Protons=Number of Electrons and Mass Number=Number of Protons+Number of Neutrons Which particle has greater mass?Neutron is heaviest among all subatomic particles with a mass of 1.0087 amu while proton has a mass of 1.0073 amu. Positron and electron both have a mass of 0.00055 amu.
Which has more mass alpha particle or proton?Hint: An alpha particle is actually a helium nucleus which consists of two protons and two neutrons so its charge is twice the proton's charge and the mass is four times greater.
Which has more mass electron or proton or neutron or alpha particle?Protons and neutrons have approximately the same mass, but they are both much more massive than electrons (approximately 2,000 times as massive as an electron). The positive charge on a proton is equal in magnitude to the negative charge on an electron.
Which has more mass alpha particle or electron?Therefore, we found that the alpha particle is 7294 times more massive than an electron.
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