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These guided inquiry lessons are all student-centered, active learning lessons without lectures or notetaking!

C.6.A: The student is expected to understand the experimental design and conclusions used in the development of modern atomic theory, including Dalton’s Postulates, Thomson’s discovery of electron properties, Rutherford’s nuclear atom, and Bohr’s nuclear atom.

C.6.B: The student is expected to understand…the mathematical relationships between energy, frequency, and wavelength of light.

C.6.C: The student is expected to calculate the wavelength, freuqency, and energy of light using Planck’s constant and the speed of light.

C.5.D: The student is expected to calculate the average atomic mass of an element.

C.6.E: The student is expected to express the arrangement of electrons in atoms through electron configurations…

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Early Models of the Atom Lesson

This guided inquiry lesson enables students to construct their own understanding of four early models of the atom. They also discover how key experiments led scientists to modify their existing views of the atom. Students are able to actively learn the material without lecture or note taking. Click

Protons, Electrons, and Neutrons Lesson

This guided inquiry lesson enables students to construct their own understanding of how to determine the number of protons, electrons, and neutrons in an atom. They also discover the role of protons, electrons, and neutrons in determining the structure, charge, and identity of an atom. Students are able to actively learn the material without lecture or note taking. Click

Isotopes and Atomic Mass Lesson

This guided inquiry lesson enables students to construct their own understanding of the structure of isotopes and how to calculate atomic mass. Students are able to actively learn the material without lecture or note taking. Click

The Bohr Model and Light Lesson

This guided inquiry lesson enables students to construct their own understanding of the Bohr model of the atom, the relationship between light and atomic structure, and the mathematical relationships between frequency, wavelength, and energy. Students are able to actively learn the material without lecture or note taking. Click

The Quantum Model Lesson

This guided inquiry lesson enables students to construct their own understanding of the Quantum model of the atom, as well as how to contruct the electron configuration, noble gas electron configuration, and orbital notation of an element. Students are able to actively learn the material without lecture or note taking. Click

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Early Models of the Atom Lesson

• Cover page (1 page)

• Guided inquiry lesson (10 pages)

• Handout (1 page)

• Card deck showing particle paths – 6 different colored sets (18 pages)

• Student study sheets (1 pages)

• Teacher notes (2 pages)

• Guided inquiry lesson with suggested answers (10 pages)

Protons, Electrons, and Neutrons Lesson

• Cover page (1 page)

• Guided inquiry lesson (13 pages)

• Colorful handout illustrating the relationship between protons,

electrons, and charge(1 page)

• Atom cards illustrating the neutral and ion forms of lithium

and nitrogen atoms (2 pages)

• Atom data sheet to record data from the atom cards (1 page)

• Proton, electron, and neutron task card sets - 6 versions each (36 pages)

• Task card answers (1 page)

• Task card answer sheet (1 page)

• Student study sheets (2 pages)

• Teacher notes (2 pages)

• Guided inquiry lesson with suggested answers (13 pages)

Isotopes and Atomic Mass Lesson

• Cover page (1 page)

• Guided inquiry lesson (7 pages)

• Atom cards illustrating the subatomic particles in isotopes (2 pages)

• Isotope task card sets - 6 versions each (12 pages)

• Task card answers (1 page)

• Task card answer sheet (1 page)

• Student study sheets (2 pages)

• Teacher notes (2 pages)

• Guided inquiry lesson with suggested answers (8 pages)

The Bohr Model and Light Lesson

• Cover page (1 page)

• Guided inquiry lesson (12 pages)

• Handout (1 page)

• Colors of Light card set (3 pages)

• Game cards (20 pages)

• Answers to game cards (1 page)

• Game board (1 page)

• Student study sheets (2 pages)

• Teacher notes (3 pages)

• Guided inquiry lesson with suggested answers (12 pages)

The Quantum Model Lesson

• Cover page (1 page)

• Guided inquiry lesson (14 pages)

• Handouts (3 page)

• Orbital cutouts (1 page)

• Task Cards – 6 versions (24 pages)

• Task Card Answer Sheet (1 page)

• Student study sheets (2 pages)

• Teacher notes (2 pages)

• Guided inquiry lesson with suggested answers (14 pages)

• Task card answers (6 pages

• Periodic Table Squares (19 pages)

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Kendo's Chemistry Store

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