Chemistry 4.1.

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Presentation transcript:

Chemistry 4.1

Defining the Atom 4.1 The lab technician shown here is using a magnifying lens to examine a bacterial culture in a petri dish. When scientists cannot see the details of what they study, they try to obtain experimental data that help fill in the picture.

Early Models of the Atom 4.1 Early Models of the Atom Early Models of the Atom An atom is the smallest particle of an element that retains its identity in a chemical reaction. Philosophers and scientists have proposed many ideas on the structure of atoms.

Early Models of the Atom 4.1 Early Models of the Atom Democritus’s Atomic Philosophy How did Democritus describe atoms? Democritus

Early Models of the Atom 4.1 Early Models of the Atom Democritus believed that atoms were indivisible and indestructible. Democritus’s ideas were limited because they didn’t explain chemical behavior and they lacked experimental support.

Early Models of the Atom 4.1 Early Models of the Atom Dalton’s Atomic Theory How did John Dalton further Democritus’s ideas on atoms?

Early Models of the Atom 4.1 Early Models of the Atom By using experimental methods, Dalton transformed Democritus’s ideas on atoms into a scientific theory. The result was Dalton’s atomic theory.

Early Models of the Atom 4.1 Early Models of the Atom All elements are composed of tiny indivisible particles called atoms. According to Dalton’s atomic theory, an element is composed of only one kind of atom, and a compound is composed of particles that are chemical combinations of different kinds of atoms. a) Atoms of element A are identical. b) Atoms of element B are identical, but differ from those of element A. c) Atoms of elements A and B can physically mix together. d) Atoms of elements A and B can chemically combine to form a compound. Interpreting Diagrams How does a mixture of atoms of different elements differ from a compound?

Early Models of the Atom 4.1 Early Models of the Atom Atoms of the same element are identical. The atoms of any one element are different from those of any other element. According to Dalton’s atomic theory, an element is composed of only one kind of atom, and a compound is composed of particles that are chemical combinations of different kinds of atoms. a) Atoms of element A are identical. b) Atoms of element B are identical, but differ from those of element A. c) Atoms of elements A and B can physically mix together. d) Atoms of elements A and B can chemically combine to form a compound. Interpreting Diagrams How does a mixture of atoms of different elements differ from a compound?

Early Models of the Atom 4.1 Early Models of the Atom Atoms of different elements can physically mix together or can chemically combine in simple whole-number ratios to form compounds. According to Dalton’s atomic theory, an element is composed of only one kind of atom, and a compound is composed of particles that are chemical combinations of different kinds of atoms. a) Atoms of element A are identical. b) Atoms of element B are identical, but differ from those of element A. c) Atoms of elements A and B can physically mix together. d) Atoms of elements A and B can chemically combine to form a compound. Interpreting Diagrams How does a mixture of atoms of different elements differ from a compound?

Early Models of the Atom 4.1 Early Models of the Atom Chemical reactions occur when atoms are separated, joined, or rearranged. Atoms of one element are never changed into atoms of another element in a chemical reaction. According to Dalton’s atomic theory, an element is composed of only one kind of atom, and a compound is composed of particles that are chemical combinations of different kinds of atoms. a) Atoms of element A are identical. b) Atoms of element B are identical, but differ from those of element A. c) Atoms of elements A and B can physically mix together. d) Atoms of elements A and B can chemically combine to form a compound. Interpreting Diagrams How does a mixture of atoms of different elements differ from a compound? Scientists used a scanning tunneling microscope to generate this image of iron atoms, shown in blue. The radius of this circle of atoms is just 7.13 × 10-9 m.

4.1 Sizing up the Atom Sizing up the Atom What instruments are used to observe individual atoms?

4.1 Sizing up the Atom Despite their small size, individual atoms are observable with instruments such as scanning tunneling microscopes.

Iron Atoms Seen Through a Scanning Tunneling Microscope 4.1 Sizing up the Atom Iron Atoms Seen Through a Scanning Tunneling Microscope

4.1 Section Quiz 4.1.

4.1 Section Quiz 1. The ancient Greek philosopher credited with suggesting all matter is made of indivisible atoms is Plato. Aristotle. Democritus. Socrates. ANS: C PTS: 1 REF: p. 101 OBJ: 4.1.1

2. Dalton's atomic theory improved earlier atomic theory by 4.1 Section Quiz 2. Dalton's atomic theory improved earlier atomic theory by teaching that all matter is composed of tiny particles called atoms. theorizing that all atoms of the same element are identical. using experimental methods to establish a scientific theory. not relating atoms to chemical change. ANS: C PTS: 1 REF: p. 102 OBJ: 4.1.2

3. Individual atoms are observable with the naked eye. 4.1 Section Quiz 3. Individual atoms are observable with the naked eye. a magnifying glass. a light microscope. a scanning tunneling microscope. ANS: D PTS: 1 REF: p. 103 OBJ: 4.1.3

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