chemistry lesson plans week of dec 1

Monday:

Alabama Course of Study Objective : 3.) Use the periodic table to identify periodic trends, including atomic radii, ionization energy, electronegativity, and energy levels.Utilizing electron configurations, Lewis dot structures, and orbital notations to write chemical formulas Calculating the number of protons, neutrons, and electrons in an isotope Utilizing benchmark discoveries to describe the historical development of atomic structure, including photoelectric effect, absorption, and emission spectra of elements

Class starter:  Define an atom and tell the 3 subatomic particles and their charges.

In class: Students will compare the wave and particle natures of light.

Define a quantum of energy, and explain how it is related to an energy change of matter.

Contrast continuous electromagnetic spectra and atomic emission spectra.

Homework: define chapter 5 vocabulary due Wednesday

Tuesday :

Alabama Course of Study Objective : 3.) Use the periodic table to identify periodic trends, including atomic radii, ionization energy, electronegativity, and energy levels.Utilizing electron configurations, Lewis dot structures, and orbital notations to write chemical formulas Calculating the number of protons, neutrons, and electrons in an isotope Utilizing benchmark discoveries to describe the historical development of atomic structure, including photoelectric effect, absorption, and emission spectra of elements

Class starter:  Describe the wave nature of light.

In class: Students will continue to compare the wave and particle natures of light.

Define a quantum of energy, and explain how it is related to an energy change of matter.

Contrast continuous electromagnetic spectra and atomic emission spectra.

Homework: define chapter 5 vocabulary due Wednesday

Wednesday :

Alabama Course of Study Objective : 3.) Use the periodic table to identify periodic trends, including atomic radii, ionization energy, electronegativity, and energy levels.Utilizing electron configurations, Lewis dot structures, and orbital notations to write chemical formulas Calculating the number of protons, neutrons, and electrons in an isotope Utilizing benchmark discoveries to describe the historical development of atomic structure, including photoelectric effect, absorption, and emission spectra of elements

Class starter:  Describe the particle nature of light.

In class: Compare the Bohr and quantum mechanical models of the atom.

Explain the impact of de Broglie's wave article duality and the Heisenberg uncertainty principle on the current view of electrons in atoms.

Identify the relationships among a hydrogen atom's energy levels, sublevels, and atomic orbitals.

Homework: Study the chapter 5 vocabulary for vocabulary quiz on Thursday.

Thursday:

Alabama Course of Study Objective : 3.) Use the periodic table to identify periodic trends, including atomic radii, ionization energy, electronegativity, and energy levels.Utilizing electron configurations, Lewis dot structures, and orbital notations to write chemical formulas Calculating the number of protons, neutrons, and electrons in an isotope Utilizing benchmark discoveries to describe the historical development of atomic structure, including photoelectric effect, absorption, and emission spectra of elements

Class starter:  study for vocabulary quiz.

In class: vocabulary quiz. Continue to compare the Bohr and quantum mechanical models of the atom.

Explain the impact of de Broglie's wave article duality and the Heisenberg uncertainty principle on the current view of electrons in atoms. Apply the Pauli exclusion principle, the aufbau principle, and Hund's rule to write electron configurations using orbital diagrams and electron configuration notation.

Define valence electrons, and draw electron-dot structures representing an atom's valence electrons.

Identify the relationships among a hydrogen atom's energy levels, sublevels, and atomic orbitals.

Homework: Study notes

Friday:

Alabama Course of Study Objective : 3.) Use the periodic table to identify periodic trends, including atomic radii, ionization energy, electronegativity, and energy levels.Utilizing electron configurations, Lewis dot structures, and orbital notations to write chemical formulas Calculating the number of protons, neutrons, and electrons in an isotope Utilizing benchmark discoveries to describe the historical development of atomic structure, including photoelectric effect, absorption, and emission spectra of elements

Class starter:  What does the Pauli exclusion principle explain?

In class: Apply the Pauli exclusion principle, the aufbau principle, and Hund's rule to write electron configurations using orbital diagrams and electron configuration notation.

Define valence electrons, and draw electron-dot structures representing an atom's valence electrons.

Identify the relationships among a hydrogen atom's energy levels, sublevels, and atomic orbitals.

Homework: Study notes