UNIT 2: Quantum Theory and Electronic Structure PDF
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This document provides a historical overview of the development of atomic theory. It covers key figures like Democritus, John Dalton, J.J. Thomson, and Ernest Rutherford and their contributions. The summary outlines the different atomic models and the key laws associated with atomic theory.
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**UNIT 2: QUANTUM THEORY AND ELECTRONIC STRUCTURE** **The Development of Atomic Theory:** Atomic Theory Timeline +-----------------------------------+-----------------------------------+ | **Democritus** | **Atomos** | |...
**UNIT 2: QUANTUM THEORY AND ELECTRONIC STRUCTURE** **The Development of Atomic Theory:** Atomic Theory Timeline +-----------------------------------+-----------------------------------+ | **Democritus** | **Atomos** | | | | | **(600 BC)** | All things are composed of the | | | atomos or the fundamental | | | particles, atoms. | +===================================+===================================+ | **John Dalton** | **Solid Sphere** | | | | | **(1803)** | All objects are made of particles | | | called atoms and that they are | | | solid spheres that cannot be | | | divided further into smaller | | | particles. | +-----------------------------------+-----------------------------------+ | **J. J. Thomson** | **Plum Pudding** | | | | | **(1897)** | Thomson proposed in 1897 that the | | | basic body of an atom is | | | spherical in shape, with | | | electrons (small particles within | | | the atom that have a negative | | | charge) and a positively charged | | | "jelly" surrounding the electrons | | | that neutralizes the charge of | | | the electrons. | +-----------------------------------+-----------------------------------+ | **Ernest Rutherford (1911)** | **Nuclear** | | | | | | An atom is mostly empty space, | | | with electrons orbiting a fixed, | | | positively charged nucleus in | | | set, predictable paths | +-----------------------------------+-----------------------------------+ | **Niels Bohr (1913)** | **Planetary** | | | | | | The electrons travel around the | | | nucleus of an atom in distinct | | | circular orbits, or shells. | +-----------------------------------+-----------------------------------+ | **Erwin Schrödinger (1926)** | **Quantum-wave** | | | | | | Electrons are undulations of | | | matter, that is, it describes the | | | wave behavior of the electron. | +-----------------------------------+-----------------------------------+ | **James Chadwick** | **Neutrons** | | | | | **(1932)** | Proved the existence of neutrons | | | -- elementary particles devoid of | | | any electrical charge. | +-----------------------------------+-----------------------------------+ **Dalton's Atomic Theory** *(Solid sphere)* **THE DEVELOPMENT OF ATOMIC THEORY: John Dalton (1803)** 1. **Law of Constant Composition/Law of Definite proportion** (Postulates 4) - in a given compound, the relative numbers and kinds of atoms are constant. - (ex. H~2~ + O = H~2~O) 2. **Law of Conservation of Mass** (Postulates 3) - the total mass of materials present after a chemical reaction is the same as the total mass present before the reaction. - (ex. X \[1 g\] + Y \[0.333 g\] = XY \[1.333 g\]) 3. **Law of Multiple Proportions** - if two elements A and B combine to form more than one compound, the masses of B that can combine with a given mass of A are in the same ratio of small whole numbers. - (ex. CO \[1.333 g\] + O \[0.333 g\] = CO \[1.333 g\]) **THE DEVELOPMENT OF ATOMIC THEORY: J.J. Thomson (1897)** **Cathode Rays -- composed of negatively charged particles called "electrons".** **Cathode Ray Tube Experiment** --electrons are accelerated from one end of the tube to the other using an electric field - led to the discovery of electrons. - ![](media/image2.png)Plum pudding model **THE DEVELOPMENT OF ATOMIC THEORY: Ernest Rutherford (1911)** **α Scattering Experiment** - directed high energy streams of α-particles from a radioactive source at a thin sheet (100 nm thickness) of gold. - most of the mass of each gold atom and all of its positive charge reside in a very small, extremely dense region called **nucleus**. - most of the volume of an atom is an empty space. - most of the particles passed through the foil unscattered. - Repulsion between the highly positive charge of the gold nucleus and the positive charge of the alpha particle caused it to deflect. ![](media/image4.png)**Nuclear Model of an Atom** - much of an atom's positive charge is concentrated in a relatively tiny volume at the center of the atom, known as the **nucleus**, where positively charged particles called **protons** reside. - Atom itself is about 100,000 (10^5^) times the diameter of the nucleus. **THE DEVELOPMENT OF ATOMIC THEORY: James Chadwick (1932)** - Discovered the neutral particles called **neutrons** - Nucleus contains two types of particles: Protons (positively charged) Neutrons (neutral). +-----------------------------------------------------------------------+ | **DISCOVERIES:** | +=======================================================================+ | - **John Dalton** -- (3) Atomic Laws | +-----------------------------------------------------------------------+ | - **J.J. Thomson** -- Electron (through Cathode Ray Tube | | Experiment) | +-----------------------------------------------------------------------+ | - **Ernest Rutherford** -- Protons (through **α** Scattering | | Experiment) | +-----------------------------------------------------------------------+ **TODAY'S ATOMIC MODEL:** - composed of protons, neutrons, and electrons - dense positively charged nucleus - negatively charged electron cloud - mostly empty space **SUBATOMIC PARTICLES:** Particle Symbol Loc Relative electric charge Mass (amu) Actual mass, g ---------- -------- -------------------------- -------------------------- ---------------- ---------------- Electron e^-^ Space around the nucleus 1- 5.486 x 10^-4^ 9.11 x 10^-28^ Proton p^+^ Nucleus 1+ 1.0073 1.67 x 10^-24^ Neutron n^0^ Nucleus 0 1.0087 1.68 x 10^-24^ **1 amu = 1.66054 x 10^-24^ g** - every atom has an **equal number** of electrons and protons (no net electrical charge) - most of the mass of the atom is in the nucleus. (protons + neutrons = **nucleons**) - Electrons are found outside the nucleus (**electron cloud**) - most of the volume of an atom is an **empty space** **ATOMIC NUMBER, MASS NUMBER AND ISOTOPES** +-----------------------------------+-----------------------------------+ | **^M^X ~N~X** | **X** -- atomic symbol | | | | | | \- symbol of element | +===================================+===================================+ | | **M** -- atomic mass | | | | | | \- mass of protons and neutrons | +-----------------------------------+-----------------------------------+ | | **N** -- atomic number | | | | | | \- number of protons | +-----------------------------------+-----------------------------------+ | **p^+^ = e^-^ :** the number of | | | protons is equal to the number of | | | electrons | | +-----------------------------------+-----------------------------------+ ***Isotopes*** - atoms of the [same element] (same number of **protons**) but [different number] of **neutrons** in their nuclei. - Atoms with the same atomic number but different atomic mass. ------------------------------------------------------------------------------------------------------------------------------- \ \ \ [~6~^12^*C*]{.math.display}\ [~6~^13^*C*]{.math.display}\ [~6~^14^*C*]{.math.display}\ ------------------------------- ------------------------------- ------------------------------- ------------------------------- \ \ \ [~6~^12^*C*]{.math.display}\ [~6~^13^*C*]{.math.display}\ [~6~^14^*C*]{.math.display}\ **A** 12 13 14 **p^+^** 6 6 6 **e^-^** 6 6 6 **n^0^** 6 7 8 ------------------------------------------------------------------------------------------------------------------------------- **ACCOUNTING OF SUB-ATOMIC PARTICLES FOR IONS** +-------------+-------------+-------------+-------------+-------------+ | Ion | Number of | | | | | | Particles | | | | +=============+=============+=============+=============+=============+ | | Electrons | Protons = Z | Nucleons | Neutrons = | | | | | (protons + | N = (A-Z) | | | | | neutrons) = | | | | | | A | | +-------------+-------------+-------------+-------------+-------------+ | **Atom:** | 11 | 11 | 23 | 12 | | | | | | | | \ | | | | | | [~11~^23^Na | | | | | | ]{.math | | | | | |.display}\ | | | | | +-------------+-------------+-------------+-------------+-------------+ | **Cation:** | 11-1=10 | | | | | | | | | | | Na^+^ (less | | | | | | 1 electron) | | | | | +-------------+-------------+-------------+-------------+-------------+ | **Atom:** | 9 | 9 | 19 | 10 | | | | | | | | \ | | | | | | [~9~^19^Fe] | | | | | | {.math | | | | | |.display}\ | | | | | +-------------+-------------+-------------+-------------+-------------+ | **Anion:** | 9+1=10 | | | | | | | | | | | Fe^-^ (add | | | | | | one | | | | | | electron) | | | | | +-------------+-------------+-------------+-------------+-------------+ **Mass of Individual Atoms** - Atomic mass of an element is the weighted average mass of isotopes of that element. \ [(atomic mass of element x percentage) + (atomic mass of isotope x percentage) = *average* *mass*/*atomic* *mass*]{.math.display}\ **Rejection of Rutherford's** **Atomic Model:** - Atoms are stable in nature *(not with Rutherford's that states it becomes unstable due to the falling of e^-^ towards the nucleus)* - Bohr infer that electron orbit the nucleus similar with how the planets rotates around the sun. Rising the idea of **Planetary Atomic Model**. **Bohr's model -- Planetary Model** (Neils Bohr, 1913) - The electron of the atom can exist only in certain circular orbits around the nucleus in certain specific radii. **Bohr's (3) Postulates:** 1. The electrons revolve around the nucleus in a fixed orbit. 2. They do not deviate from their path. 3. The electrons can make a jump from one orbit to another one. (With proton energy E = hv) **Ground State** -- lowest energy state of an; most stable. **Excited State** -- higher energy state **QUANTUM** a **quantum staircase** as an analogy for atomic energy levels. - **"n"** represents energy levels (n = 1,2,3,4...) - Higher **n** value means higher energy level. - **"Energy is quantized"** when an electron [falls back to the lower level/jumps to the higher level] it **emits/absorbs** a definite amount of energy in the form of quantum of light. - [\$\\mathbf{E =}\\frac{\\text{hc}}{\\lambda}\$]{.math.inline} - λ = lambda **ERWIN SCHRÖDINGER'S QUANTUM MECHANICAL MODEL OF AN ATOM** **Bohr vs. Electron Cloud** - regions around the nucleus of an atom where an electron is likely to be found. - clouds showing the region of probable electron locations. **Electron density (density of the electron cloud)** - Region of high e^-^ density = high probability of finding an e^-^. - Region of low e^-^ density -- low probability of finding an e^-^. - **Heisenberg's Uncertainty Principle** - states that it is not possible to measure precisely both the **velocity** (momentum) and the **position** of an electron at the same time. - **Louis de Broglie** - proposed that electrons might also have wave-particle nature *(electrons have wave properties).* - Devised an equation that treated electrons as waves. - **Ψ** -- wave function, describe the electron of an atom and (**Ψ^2^**) provides info about its location. - Location cannot be described, (**Ψ^2^**) represents the probability that the electron can be found at a certain region**.** - (**Ψ^2^**) -- **probability density** or **electron density**. - Wave functions = foundation of wave theory. - **Quantum Theory** -- describe mathematically the wave properties of the electrons. - **Orbitals** -- a set of wave functions. **QUANTUM NUMBERS AND ATOMIC ORBITALS** - **Quantum numbers** -- are dimensionless numbers which completely describe the **state of an electron**. - Four quantum numbers describe the distribution and behavior of electrons in atoms. - Each wave function, Ψ, corresponds to a set of three quantum numbers and is referred to as an **atomic orbital** (has characteristic shape and energy). +-----------------------------------------------------------------------+ | **(4) QUANTUM NUMBERS:** | +=======================================================================+ | 1. **Principal quantum number \[n\]** | | | | - describes the **distance between the nucleus and the shell**. | | | | - as n increase, on average, the electron is found farther out of | | the nucleus. | | | | - describes the level of the shell -- as **"n"** increases, the | | energy of the electron increases and is therefore less tightly | | bound to the nucleus. | | | | - can have an integral value **1,2,3,4.... Etc.** | | | | - numbers of electrons that can be accommodated in a given shell is | | equal to **\[2n^2^\]**. | | | | ![](media/image6.png) | +-----------------------------------------------------------------------+ | 2. **Azimuthal/ Angular Momentum Quantum Number, \[l\]** | | | | - defines the shape of the orbital | | | | - describes the energy level of the subshells | | | | - number of subshells in a shell is equal to n | | | | - has any integral value starting from 0 to (n-1) | | | | *Table 1. Azimuthal quantum number* | | | | l values Symbol No. of orbitals Shape | | ---------- -------- ----------------- ------------ | | 0 s 1 spherical | | 1 p 3 dumbbell | | 2 d 5 four-lobe | | 3 f 7 eight-lobe | | | | - each subshell consists of a set of orbitals | | | | - all the orbitals in the same subshell have the same energy | | | | - within a given shell, the energies of the electrons in the | | orbitals increase in the following order: \< np \< nd \< nf. | | | | **Principal Quantum Number Symbol:** | | | | Angular Momentum Quantum Number Symbol: | | | | +---------------------+---------------------+---------------------+ | | | Principal Quantum | Angular Momentum | Subshells | | | | No. \[n\] | Quantum No. \[l\] | | | | +=====================+=====================+=====================+ | | | 1 | l = 0 | s | | | | | | | | | | | | (1 subshell) | | | +---------------------+---------------------+---------------------+ | | | 2 | l = 0,1 | s, p | | | | | | | | | | | | (2 subshells) | | | +---------------------+---------------------+---------------------+ | | | 3 | l = 0,1,2 | s, p, d | | | | | | | | | | | | (3 subshells) | | | +---------------------+---------------------+---------------------+ | | | 4 | l = 0,1,2,3 | s, p, d, f | | | | | | | | | | | | (4 subshells) | | | +---------------------+---------------------+---------------------+ | +-----------------------------------------------------------------------+ | 3. **Magnetic Quantum Number \[m~l~\]** | | | | - describes the orientation of the atomic orbitals in space. | | | | - distinguishes orbitals within a given sub-shell that have | | different shapes and orientation in space | | | | - each subshell is divided into **"orbitals"**, each capable of | | holding a pair of electrons | | | | - can have any integer value from \[-\] to \[+\] | | | | - each orbital within a given subshell has the same energy. | | | | ![](media/image8.png) | +-----------------------------------------------------------------------+ | 4. **Spin Quantum Number \[m~s~\]** | | | | - describes the direction of spin of an electron about its own | | axis: counterclockwise, **m~s~ = -** **½,** clockwise, **m~s~ = | | ½**. | | | | - ![](media/image10.jpeg)Electrons with the **same spin quantum | | numbers** have [parallel spins] while those with | | **different m~s~ values** have [opposite spin.] | +-----------------------------------------------------------------------+ *Table 8.1 Summary of Quantum Numbers of Electrons in Atoms* +-----------------+-----------------+-----------------+-----------------+ | **Name** | **Symbol** | **Permitted | **Property** | | | | Values** | | +=================+=================+=================+=================+ | Principal | n | 1, 2, 3, 4... | Distance of | | | | | nucleus and | | | | Positive | shell | | | | integers | | +-----------------+-----------------+-----------------+-----------------+ | Azimuthal/ | l | 0,1,2,3 | Shape of | | Angular | | | orbitals | | Momentum | | 0 to n-1 | | +-----------------+-----------------+-----------------+-----------------+ | Magnetic | m~l~ | (-) to (+) | Orientation of | | | | | orbitals in | | | | Integers from - | space | | | | 0 + | | +-----------------+-----------------+-----------------+-----------------+ | Spin | m~s~ | ± ½ | Rotation of | | | | | orbital | | | | | (direction of | | | | | e^-^ spin) | +-----------------+-----------------+-----------------+-----------------+