Christian Madu, Ph.D. Collin College Lecture Presentation Chapter 2-1 Atoms and Elements.

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Presentation transcript:

Christian Madu, Ph.D. Collin College Lecture Presentation Chapter 2-1 Atoms and Elements

If You Cut a Piece of Graphite If you cut a piece of graphite from the tip of a pencil into smaller and smaller pieces, how far could you go? Could you divide it forever? Cutting the graphite from a pencil tip into smaller and smaller pieces (far smaller than the eye could see), would eventually end up with individual carbon atoms.

If You Cut a Piece of Graphite The word atom comes from the Greek atomos, meaning “indivisible.” You cannot divide a carbon atom into smaller pieces and still have carbon. Atoms compose all ordinary matter—if you want to understand matter, you must begin by understanding atoms.

Imaging and Moving Individual Atoms On March 16, 1981, Gerd Binnig and Heinrich Rohrer worked late into the night in their laboratory. Their work led to the development of scanning tunneling microscopy (STM). STM is a technique that can image, and even move, individual atoms and molecules.

Scanning Tunneling Microscopy Binnig and Rohrer developed a type of microscope that could “see” atoms.

Imaging and Moving Individual Atoms In spite of their small size, atoms are the key to connecting the macroscopic and microscopic worlds. An atom is the smallest identifiable unit of an element. There are about – 91 different naturally occurring elements, and – over 20 synthetic elements (elements not found in nature).

Early Ideas about the Building Blocks of Matter Leucippus (fifth century B.C.) and his student Democritus (460–370 B.C.) were first to propose that matter was composed of small, indestructible particles. – Democritus wrote, “Nothing exists except atoms and empty space; everything else is opinion.” They proposed that many different kinds of atoms existed, each different in shape and size, and that they moved randomly through empty space.

Early Building Blocks of Matter Ideas Plato and Aristotle did not embrace the atomic ideas of Leucippus and Democritus. They held that – matter had no smallest parts. – different substances were composed of various proportions of fire, air, earth, and water.

Early Building Blocks of Matter Ideas Later scientific approach became the established way to learn about the physical world. An English chemist, John Dalton (1766–1844) offered convincing evidence that supported the early atomic ideas of Leucippus and Democritus.

Modern Atomic Theory and the Laws That Led to It The theory that all matter is composed of atoms grew out of observations and laws. The three most important laws that led to the development and acceptance of the atomic theory are as follows: – The law of conservation of mass – The law of definite proportions – The law of multiple proportions

The Law of Conservation of Mass Antoine Lavoisier formulated the law of conservation of mass, which states the following: – In a chemical reaction, matter is neither created nor destroyed. Hence, when a chemical reaction occurs, the total mass of the substances involved in the reaction does not change.

The Law of Conservation of Mass This law is consistent with the idea that matter is composed of small, indestructible particles.

The Law of Definite Proportions In 1797, a French chemist, Joseph Proust made observations on the composition of compounds. He summarized his observations in the law of definite proportions: – All samples of a given compound, regardless of their source or how they were prepared, have the same proportions of their constituent elements.

The Law of Definite Proportions The law of definite proportions is sometimes called the law of constant composition. For example, the decomposition of 18.0 g of water results in 16.0 g of oxygen and 2.0 g of hydrogen, or an oxygen-to-hydrogen mass ratio of:

The Law of Multiple Proportions In 1804, John Dalton published his law of multiple proportions. – When two elements (call them A and B) form two different compounds, the masses of element B that combine with 1 g of element A can be expressed as a ratio of small whole numbers. An atom of A combines with either one, two, three, or more atoms of B (AB 1, AB 2, AB 3, etc.).

The Law of Multiple Proportions Carbon monoxide and carbon dioxide are two compounds composed of the same two elements: carbon and oxygen. – The mass ratio of oxygen to carbon in carbon dioxide is 2.67:1; therefore, 2.67 g of oxygen reacts with 1 g of carbon. – In carbon monoxide, however, the mass ratio of oxygen to carbon is 1.33:1, or 1.33 g of oxygen to every 1 g of carbon.

The ratio of these two masses is itself a small whole number.

John Dalton and the Atomic Theory Dalton’s atomic theory explained the laws as follows: 1. Each element is composed of tiny, indestructible particles called atoms. 2.All atoms of a given element have the same mass and other properties that distinguish them from the atoms of other elements. 3.Atoms combine in simple, whole-number ratios to form compounds. 4.Atoms of one element cannot change into atoms of another element. In a chemical reaction, atoms only change the way that they are bound together with other atoms.