THE ATOMIC STRUCTURE OF MATTER

Presentación del tema: "THE ATOMIC STRUCTURE OF MATTER"— Transcripción de la presentación:

1 THE ATOMIC STRUCTURE OF MATTER
FÍSICA Y QUÍMICA 3º DE E.S.O. UNIT 1: THE ATOMIC STRUCTURE OF MATTER FQ3ESO_U1_2: SUBATOMIC PARTICLES U.1_2 d1

2 2.7. Estructura atómica. Isótopos. Modelos atómicos..
Bloque 2. La materia 2.7. Estructura atómica. Isótopos. Modelos atómicos.. Criterios de evaluación C.E.2.6. Reconocer que los modelos atómicos son instrumentos interpretativos de las distintas teorías y la necesidad de su utilización para la comprensión de la estructura interna de la materia. CMCT, CAA. Estándares de aprendizaje evaluables EE.A Representa el átomo, a partir del número atómico y el número másico, utilizando el modelo planetario. E.A Describe las características de las partículas subatómicas básicas y su localización en el átomo. E.A Relaciona la notación AZX con el número atómico, el número másico determinando el número de cada uno de los tipos de partículas subatómicas básicas. C.E.2.7. Analizar la utilidad científica y tecnológica de los isótopos radiactivos. CCL, CAA, CSC E.A Explica en qué consiste un isótopo y comenta aplicaciones de los isótopos radiactivos, la problemática de los residuos originados y las soluciones para la gestión de los mismos. U.1_2 d2

3 Characteristics of atoms
An element is matter that is made up of one type of atom. An atom is the smallest piece of matter that still has the properties of the element. U.1_2 d3

4 Characteristics of atoms
C, Al, Ne, and Ag are all chemical symbols for different elements. Chemical symbols make writing names of elements easier. Chemical symbols are either one capital letter or a capital letter plus one lowercase letter. C U.1_2 d4

5 Atomic Components Subatomic particles are particles that are smaller than the atom. Atoms are made up of protons, neutrons, and electrons. Protons are particles with an electrical charge of +1. Neutrons are particles with no electrical charge. Electrons are particles with an electrical charge of –1. U.1_2 d5

6 Atomic Components Protons and neutrons have approximately the same mass. One proton has the same mass as 1836 electrons. If an electron was the size of a coin … … a proton would have the mass of a large bowling ball! U.1_2 d6

7 Atomic Components The nucleus is the small, positively charged center of the atom. It is made up of protons and neutrons. The nucleus is surrounded by a cloud containing electrons. U.1_2 d7

8 Atomic Components % of an atom's volume is just empty space! 5.3 kilometers 65.5 m 30.48 cm 2.6 kilometers Nucleus = 1/10,000th size of the atom U.1_2 d8 (Pluto is a dwarf planet)

9 Inside the heart of a nucleus
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10 Atoms of different elements differ in the
number of protons they contain. Atoms of different elements have a different number of protons. All atoms with one proton are hydrogen atoms. For example, all atoms with 11 protons are sodium atoms. U.1_2 d10

11 The number of protons tells you
what type of atom you have and vice-versa. For example, every carbon atom has six protons. Also, every atom with six protons is carbon U.1_2 d11

12 The atomic number (Z) of an element is the number of
protons in an atom of the element. Since carbon has six protons, the atomic number of carbon is 6. U.1_2 d12

13 The mass number of an atom (A) is the sum of the number of protons and the number of neutrons in the nucleus of the atom. A = Z + N = 6 protons + 6 neutrons = = 12 nucleons U.1_2 d13

14 protons, the atomic number of carbon is Z = 6.
Since carbon has six protons, the atomic number of carbon is Z = 6. If the atom is neutral the number of electrons is 6 U.1_2 d14

15 Atomic number and mass number
A = Mass number = = number of nucleons = = number of protons + number of neutrons Z = Atomic number = number of protons A = Z + N N = Neutron number U.1_2 d15

16 Número atómico y número másico
Z = A = Z + N U.1_2 d16

17 How is the number of neutrons found
How is the number of neutrons found? If you know the mass number and atomic number of an atom, you can find the number of neutrons it contains. number of neutrons = mass number - atomic number 7 Li 3 A = Z + N N = A - Z N = A - Z = = 4 neutrons U.1_2 d17

18 Determining the number of atomic particles
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19 Determining the number of atomic particles
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20 Isotopes Isotopes of elements occur when atoms have the same atomic number (Z) but different numbers of neutrons in the nucleus. Li-6 Li-7 Li-8 The number of neutrons in an atom does not affect the way an element behaves chemically, but it does affect the way it behaves physically U.1_2 d20

21 Isotopes C-12 C-13 C-14 CARBON 12 CARBON 13 CARBON 14
Some isotopes are radioactive or unstable and change into other element. U.1_2 d21

22 Isotope symbols U.1_2 d22

23 Isotope symbols U.1_2 d23

24 Isotopes C-14 is being constantly formed in the upper atmosphere by cosmic ray interactions with nitrogen. All living things have the same amount of C-14. The pharaoh below feeded on living things when he was alive, and incorporated the C-14 into his body. U.1_2 d24

25 Isotopes When the pharaoh was dead he could not continue feeding on living things and did not incorporate the C-14 into his body any more U.1_2 d25

26 Isotopes Once an organism dies, the relative amount of C-14 declines by 50% for every 5730 years - the half-life of C-14. By measuring the relative amount of C-14 in the mummy, compared with modern material, the age can be calculated. U.1_2 d226

27 What do we do with the radioactive waste?
Isotopes are used to obtain energy What do we do with the radioactive waste? U.1_2 d27

28 What do we do with the radioactive waste?
Isotopes are used to obtain energy… but not only What do we do with the radioactive waste? U.1_2 d28