Matter Chemical substances are composed of matter Matter
Matter Chemical substances are composed of matter Matter is the physical material of the universe; anything with mass that occupies space is matter Matter can take many forms. Most matter is formed by unique arrangements of elementary substances called elements Elements, Molecules and Compounds Any pure substance that can not be broken down into simpler substances is an element. Millions of different materials in the world, all comprised of some combination of only 118 elements Similar to how the alphabet combines 26 letters to yield hundreds of thousands of words, elements bond in unique arrangements to give different molecules Molecules agglomerate to yield compounds
Elements, Molecules and Compounds Elements: H, O, Na, Cl (etc.) Molecules: H2O (water), HOOH (hydrogen peroxide) NaCl (sodium chloride) HCl (hydrochloric acid) NaClO4 (sodium perchlorate) We refer to a compound as a bulk accumulation of molecules (i.e. A single water molecule vs. a glass full of water composed of billions and billions of molecules) Elements can be classified as metals, nonmetals, and semiconductors Metals are all elements LEFT of the black line, except Hydrogen. Orange elements along black line are semiconductors.
Metals Metals are highly reactive elements that exhibit the characteristics outlined below: Metal characteristics Malleable Ductile Conductive of electricity Conductive of heat Have luster and shine Nonmetals Nonmetal characteristics Most nonmetals are gases Non conductive Those that are solid are not conductive, malleable, or ductile
He (g) O2 (g) P(s) S(s) Diatomic Species Certain elements are unstable, and hence, do not exist naturally in atomic form, but as diatomic molecules These specific elements (all gases) include H, O, N, and all of the halogens (group 17) H H2 (Hydrogen gas) O O2 (Oxygen gas) N N2 (Nitrogen gas) F, Cl, Br, I F2, Cl2, Br2, I2 (Fluorine gas, chlorine gas, bromine gas and iodine gas) Atomic Mass
Dmitri Mendeleev created the periodic table in in 1869 by arranging the elements in order of increasing atomic mass. Atoms have extremely small masses. To express such small masses, we use the atomic mass unit (amu), which is equal to 1.66 x 10-24 g. Atomic Structure The mass of an atom is derived from the subatomic particles that compose it. These electrically charged particles are known as: electrons (negatively charged) protons (positively charged) neutrons (neutral) Neutral atoms have equal numbers of protons and electrons, so they have no net electrical charge. Electrons and protons have equal but opposite charge.
The structure of the atom is a spherical system containing a central nucleus surrounded by orbiting electrons Atomic Structure Particl e Relative Charge Mass (amu) Proton (yellow) +1
1.007 Neutron (orange ) 0 1.008 Electron (white) -1 .000548 Nearly all the mass of an atom is contained in the nucleus. The electrons are so light that they do not contribute to the total atomic mass.
Therefore, atomic mass increases proportionally with atomic number Atomic Number The number of protons in an atom is called the atomic number. This number defines an element. As shown to the right, only Helium has 2 protons. The atoms of a given element (same number of protons) are exactly the same in every way. Since nearly all of the mass of an element is in the nucleus, the atomic mass is merely the sum of the number of protons and neutrons
Isotopes As you may have noticed, atomic masses are not whole numbers. The atomic masses listed on the periodic table are average values. The reason for these averages is that elements exist in nature as numerous isotopes. Isotopes Isotopes are variations of elements with the same number of protons but different numbers of
neutrons. For example, the most common isotope of hydrogen contains one proton, one electron, and no neutrons (99.985% of all hydrogen atoms). An isotope of hydrogen is deuterium, which has one neutron (.0115 %) mass number atomic number 1 1
hydroge 2 1 deuteri 3 1 tritium n um = ( ) () Example Determine the number of protons,neutrons, and electrons for
a neutral carbon atom Isotope Protons Neutrons Electrons Ions Thus far, weve learned than an element is essentially defined by its atomic number Each element has an exact number of protons. For example, Hydrogen has only one proton. If you force a second proton onto the atom, you no longer have hydrogen you now have Helium. We have also learned that atoms of a particular element
can have variations in the number of neutrons. Atoms of the same element with varying numbers of neutrons are called isotopes. Next, we will discuss ions. Ions Ions are electrically charged atoms, resulting from the gain or loss of electrons. Positively charged ions are called cations. You form cations when electrons are lost Negatively charged ions are called anions. You form anions when electrons are gained A cation is named by adding the word ion to the end of the element name Anions are named by adding the suffix ide to the end of an element
Ions + Lithium ion + Sodium ion 2+ Magnesium ion 3+ Aluminum ion
Chloride 2 Sulfide 2 Oxide 3 Phosphide Ions Fill in the tables below
ionize 32 2 d 16 Sulfide Sulfur-32 -32Neutro Electro ISOTOPE Proto ns ns ns 32 16 2-
27 13 ioniz ed Aluminum27 ISOTOPE Proto ns 3+ 27 13 3+ Aluminum ion-27
Neutro Electro ns ns Nomenclature There are special rules to naming molecules. You will see two types of molecules: IONIC and COVALENT Ionic bonds are formed between metals and nonmetals To name an ionic compound, you do the following write the name of the metal Follow it with the name of the nonmetal, but change the last syllable of the name of the nonmetal to ide Example: KF K (potassium) is a metal. F (fluorine) is a non metal.
We write the name as: Potassium Fluoride Na2S = Sodium Sulfide; MgO = Magnesium Oxide Nomenclature Covalent bonds are formed between nonmetals and nonmetals To name a covalent compound, you do the following Include a prefix corresponding to the first nonmetal. Do not use mono on the first nonmental. Use a prefix to name the second nonmetal. We only use mono for oxygen. Drop
the ending of the second nonmetal and replace it with ide SF4 = sulfur tetrafluoride N2O = dinitrogen monoxide Groups and Periodicity As Mendeleev continued to add elements to the periodic table in order of atomic mass, he observed similarities in chemical/physical properties as well as repetitive patterns in chemical behavior. Thus, the periodic table was arranged vertically in groups, and horizontally across periods. This periodicity is described in the next few slides. Chemical Groups
Consider the three metals Li, Na, and K All 3 metals are soft All 3 metals are less dense than water All 3 metals have similar appearance and low melting points The most interesting feature is that all 3 metals react with the same elements in a similar manner As you see in the periodic table, these elements are all listed vertically in the same group. Elements in a group behave similarly. Recognizing patterns allows us to predict reactions without memorizing every characteristic of every element Periodicity 2 He Totally unreactive
gas Decreasing metallic character 3 Li Highly reactive, highly conductive metal 4 Be 6 C Less reactive, less conductive metal Nonconductive,
nonmetallic solid 9 F Highly reactive, diatomic, nonmetallic gas Decreasing metallic character 11 Na Highly reactive, highly conductive metal 12 Mg 14 Si
Less reactive, less conductive metal Slightly conductive semi-metal Decreasing metallic character 19 K Highly reactive, highly conductive metal 20 Be Less reactive, less conductive
metal 22 C Nonconductive, nonmetallic solid 17 Cl Highly reactive, diatomic, nonmetallic gas 25 F Highly reactive, diatomic, nonmetallic liq. 10 Ne
Totally unreactive gas 18 Ar Totally unreactive gas 26 Kr Totally unreactive gas How to Interpret the Findings of Mendeleev The existence of periodicity proves a very important point: *Atomic number, and therefore, atomic mass, has no
effect on elemental properties. Otherwise, chemical behaviors would never repeat. Therefore, the chemical behavior of an element must be due to the configuration of electrons around the nucleus. Periodicity is Due To Repeating Valence Electrons The outermost electrons of an element (valence electrons) are responsible for chemical reactivity. The number of valence electrons is the same down a group. Li Be B C
N O F N e Na Mg Al S i P S
Cl Ar Na EMR: Light and Energy What is Light? The light that we see with our eyes is a type of electromagnetic radiation (EMR) When we use the term radiation, we are referring to energy that is propagated (moves and spreads outward) through space as waves Light, such as that which emits from a lamp is comprised of visible waves Radio waves from a radio are another
Invisible UV and Infrared rays from the sun are also EMR Propagation of Waves The waves created in water when an external force is applied are an example of propagation. The energy transferred to the spot of impact when the droplet strikes the surface is spread and transmitted throughout the water. EMR propagates through the universe as oscillating, perpendicular electric and magnetic fields Wavelength and Frequency The distance between local maxima, or crests, is the
wavelength (units of meters) If we picture these waves moving across the page, the number of crests that pass a given point per second is the frequency, (units of s-1) The speed of a wave is given by the product of and : =c c is the speed of light, 3.0 x 108 m/s. All EMR moves at this speed through vacuum
Different Types of EMR Have Different Wavelengths The electromagnetic spectrum below shows EMR listed by increasing wavelength Wavelengths vary from the size of an atomic nucleus to the length of a football field The Visible Spectrum ROY G. BIV (increasing Energy) Examples What is the frequency of orange (~650 nm) light? A certain type of radiation has a frequency of 10 15 s-1.
What is the wavelength, in nm, of this radiation? What kind of radiation is it? Continuous Spectra White light is comprised of all wavelengths of the visible spectrum. Because the spectrum of white light has no gaps, it is a continuous spectrum. Sunlight, for example, is continuous over a long range of wavelengths. The spectrum of sunlight is shown. Just something to know: Sunlight is actually white, but absorption and scattering of light by the atmosphere causes the sky to appear blue and the sun to appear yellow.
The Birth Of Quantum Physics The failure of Classical Physics to explain blackbody radiation lead to the creation of Quantum Physics by Planck, Einstein, and others. Planck explained blackbody radiation by asserting that radiation can only be emitted in small, exact amounts called quanta He then derived the amount of energy absorbed or released in a single event E is =equal to: nh where E is the total energy in J, n is the number of quanta, and h is Plancks constant, 6.626 x 10-34 Js
Examples Calculate the energy contained in a single quanta of blue light (~400 nm) Calculate the energy of contained in 10 quanta of green light (~520 nm) A laser beam of yellowish light (~550 nm) emits 10 18 quanta per minute. How much energy is emitted per hour?
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