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Transcript 
Phys_SG_cap01-11.qxd
10/14/05
1:47 AM
Page 123
Nombre
Clase
Fecha
Hoja de destrezas
Repaso de la sección
Desarrollo de la teoría atómica
USAR TÉRMINOS CLAVE
1. Define el término átomo en tus propias palabras.
Las siguientes oraciones son falsas. Reemplaza el término subrayado en cada oración
para hacerla verdadera.
2. El núcleo es una partícula con una carga eléctrica negativa.
3. El electrón es donde se encuentra la mayor parte de la masa de un átomo.
COMPRENDER LAS IDEAS PRINCIPALES
______ 4. ¿Cuál de los siguientes científicos descubrió que los átomos
contienen electrones?
a. Dalton
b. Thomson
c. Rutherford
d. Bohr
5. ¿Qué hizo Dalton al desarrollar su teoría que no hizo Demócrito?
6. ¿Qué descubrimiento demostró que la mayor parte de un átomo es espacio vacío?
7. ¿Qué mejoras le hizo Bohr a la teoría atómica propuesta por Rutherford?
Copyright © by Holt, Rinehart and Winston. All rights reserved.
HOLT CIENCIAS Y TECNOLOGÍA
123
Introducción a los átomos
Phys_SG_cap01-11.qxd
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Page 124
Nombre
Clase
Fecha
Repaso de la sección (continuación)
RAZONAMIENTO CRÍTICO
8. Comparar Compara la ubicación de los electrones según la teoría de Bohr con la
ubicación de los electrones según la teoría atómica actual.
9. Analizar métodos ¿Cómo demuestra el diseño del experimento de Rutherford lo que
él estaba tratando de descubrir?
INTERPRETAR GRÁFICAS
10. ¿Por qué demostró ser incorrecto el siguiente modelo atómico?
Copyright © by Holt, Rinehart and Winston. All rights reserved.
HOLT CIENCIAS Y TECNOLOGÍA
124
Introducción a los átomos
ANSWER KEY
Vocabulary and Section
Summary
5. He performed experiments and drew
SECTION: DEVELOPMENT OF THE
ATOMIC THEORY
6.
1. atom: the smallest unit of an element
that maintains the properties of an
element
2. electron: a subatomic particle that has
a negative charge
3. nucleus: in physical science, an atom’s
central region, which is made up of
protons and neutrons
4. electron cloud: a region around the
nucleus of an atom where electrons
are likely to be found
7.
8.
SECTION: THE ATOM
1. proton: a subatomic particle that has a
2.
3.
4.
5.
6.
7.
9.
positive charge and that is found in
the nucleus of an atom
atomic mass unit: a unit of mass that
describes the mass of an atom or
molecule
neutron: a subatomic particle that has
no charge and that is found in the
nucleus of an atom
atomic number: the number of protons
in the nucleus of an atom; the atomic
number is the same for all atoms of an
element
isotope: an atom that has the same
number of protons (or the same atomic
number) as other atoms of the same
element do but that has a different
number of neutrons (and thus a
different atomic mass)
mass number: the sum of the numbers
of protons and neutrons in the nucleus
of an atom
atomic mass: the mass of an atom
expressed in atomic mass units
10.
conclusions from them to develop his
theory.
Rutherford’s gold foil experiment, in
which Rutherford observed that most
of the positively charged particles that
he aimed at a piece of gold foil went
straight through
Bohr suggested that electrons could
move around the nucleus only in certain paths. They could jump from path
to path, but not stay between the
paths.
Bohr’s theory held that electrons can
travel only in certain paths around the
nucleus. The current atomic theory is
that electrons travel in regions where
they are likely to be found.
Rutherford placed a surface behind
the gold foil, which would glow where
the positively charged particles hit it.
This shows that he was trying to find
out where the particles went after
hitting the gold foil.
The model represents electrons as
mixed throughout an atom. Rutherford
showed this arrangement to be
incorrect.
SECTION: THE ATOM
1. Sample answer: Different isotopes
2.
3.
4.
5.
Section Review
SECTION: DEVELOPMENT OF THE
ATOMIC THEORY
6.
1. Sample answer: the smallest part of an
7.
element that has the properties of that
element
2. electron
3. nucleus
4. B
8.
have the same number of protons but
different numbers of neutrons.
atomic number
atomic mass
B
Gravitational force acts between
objects based on their mass.
Electromagnetic force attracts objects
of opposite electric charge and repels
objects of the same electric charge.
The strong force holds the protons
and neutrons of atomic nuclei
together. The weak force plays a role
in radioactive decay.
(0.30 203 amu) (0.70 205 amu) 204.4 amu
Gravitational force in the nucleus is so
small because the masses of nuclear
particles are so small.
no; Without neutrons, two protons
brought into close contact would repel
each other.
Copyright © by Holt, Rinehart and Winston. All rights reserved.
Holt Science and Technology
62
Introduction to Atoms
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