Nov 26, 2024  
College Catalog 2021-2022 
    
College Catalog 2021-2022 [ARCHIVED CATALOG]

Add to Favorites (opens a new window)

PHSA 1050 - Physical Science

Credit Hours: 4.00


Prerequisites: None

No credit after NSC 118 or PHS 101. An overview of the physical sciences, to illustrate the underlying physical concepts of modern technological society. These concepts are investigated through selected laboratory experiences and classroom work designed to improve a general understanding of the physical sciences.

Billable Contact Hours: 4

Search for Sections
OUTCOMES AND OBJECTIVES
Course Outcome:

Apply the scientific process to a variety of physical situations.

Objectives:

  1. Identify the laws, models, or theories that are applicable.
  2. Describe the physical laws, models, and theories.
  3. Analyze and apply the physical laws, models and theories.
  4. Assess the testability of a hypothesis.
  5. Develop research questions.
  6. Develop appropriate physical hypotheses.
  7. Identify dependent, independent, and constant variables.
  8. Test valid hypotheses.
  9. Analyze and interpret the success or failure of physical hypotheses.
  10. Question observations.
  11. Follow/Apply written lab instructions.
  12. Peer Review Process.

Course Outcome:

Be familiar with scientific usage of specialized, scientific vocabulary.

Objectives:

  1. Define terminology.
  2. Recall terminology.
  3. Employ terminology.

Course Outcome:

Explore preconceptions concerning physical interactions, and develop conceptual changes to reflect basic physics concepts relating to the physical sciences.

Objectives:

  1. Differentiate between intuitive expectations and established scientific principles through classroom discussion and laboratory exercises.
  2. Through lab experiments students will compare experimental results with preconceived notions.

Course Outcome:

Using the scientific method, take accurate data, organize and analyze experimental data

Objectives:

  1. Collect data through experimentation and observation.
  2. Utilize various measuring instruments to collect data.
  3. Analyze (using mathematics) and interpret data to arrive at a conclusion.
  4. Reproduce results that are commonly accepted.
  5. Based upon current theoretical models make predictions about experimental outcomes.
  6. Compare experimental conclusions to theoretical predictions.
  7. Organize results and conclusions to communicate understanding of mathematical and conceptual physics.

Course Outcome:

Gain a historical perspective of the development of science and scientific laws relating to the sciences.

Objectives:

  1. Identify the historical laws, models, and theories.
  2. Describe the historical laws, models, and theories.

COMMON DEGREE OUTCOMES (CDO)
• Communication: The graduate can communicate effectively for the intended purpose and audience.
• Critical Thinking: The graduate can make informed decisions after analyzing information or evidence related to the issue.
• Global Literacy: The graduate can analyze human behavior or experiences through cultural, social, political, or economic perspectives.
• Information Literacy: The graduate can responsibly use information gathered from a variety of formats in order to complete a task.
• Quantitative Reasoning: The graduate can apply quantitative methods or evidence to solve problems or make judgments.
• Scientific Literacy: The graduate can produce or interpret scientific information presented in a variety of formats.

CDO marked YES apply to this course:
Communication: YES
Critical Thinking: YES
Quantitative Reasoning: YES
Scientific Literacy: YES

COURSE CONTENT OUTLINE
Course Content

  1. Introduction to the Use of Computers
    1. Graphing
    2. Current Macomb Community College LMS
    3. Other (Simulations, videos, google searches, etc…)
  2. Measurement
    1. Terminology: Measurement, density, deci, centi, milli, kilo, gram, liter, meter, time, average, error, percent error, meniscus, volume, mass, temperature, metric system
    2. Measurement Rule
    3. Unit conversions (metric to English and vice versa)
    4. Measure mass, volume, weight, temperature, time, length, etc… . using various instruments
    5. Calculate derived quantities
    6. Calculate average, error, and percent error.
  3. Experimental Models
    1. Terminology: Observation, law, hypothesis, theory, scientific method, research question, independent variable, dependent variable, constants, period, mass, amplitude, vibration, oscillation, pendulum, prediction
    2. Pendulum
    3. Graphing and analysis
  4. The Structure Of Matter
    1. Terminology: Acid, atomic number, atomic weight, atoms, base, compounds, covalent bond, dissociation, electrolyte, electrons, elements, gas, groups, heterogeneous, homogeneous, indicator, inorganic, ion, ionic bond, isotopes, liquid, litmus, matter, mixtures, molecules, neutrons, non-pure substance, organic, period, phenolphthalein, pHydrion, protons, pure substance, shells or orbits, solid
    2. Atomic Theory
    3. Periodic Table
    4. Covalent and ionic bonds
    5. Elements and molecules
    6. States of Matter
    7. Properties of metals and non-metals
    8. Law of Definite Proportions
    9. Acids and Bases
    10. Graphing and Analysis
  5. Motion
    1. Terminology: Speed, velocity, acceleration, mass, constant, acceleration, time, linear motion, momentum, impact, inertia, kinetic energy, impulse
    2. Speed
    3. Acceleration
    4. Momentum
    5. Kinetic Energy
    6. Graphing and Analysis
  6. Forces and Simple Machines
    1. Terminology: Actual Mechanical Advantage, Effort, Ideal Mechanical Advantage, lever, inclined plane, pulley, wedge, screw, wheel and axle, resistance, effort, fulcrum, Ideal Effort, Actual Effort, Newton’s Laws of Motion, Force, Newton, weight
    2. Forces
    3. Newton’s Three Laws of Motion
    4. Simple Machines
    5. Mechanical Advantage
    6. Graphing and Analysis
  7. Energy
    1. Terminology: Acceleration, chemical, electrical, energy, energy conversion, force, heat, horsepower, joule, kinetic energy, light, mechanical, nuclear, potential energy, power, sound, speed, watt, work
    2. Forms of Energy
    3. Energy Conversions
    4. Work - Energy Theorem
    5. Conservation of Energy
    6. Work for Simple Machines
    7. Power
    8. Graphing and Analysis
  8. Heat
    1. Terminology: Calorimeter, specific heat capacity, temperature, mass, heat, calorie, equilibrium, Conservation of Energy, Kelvin, Fahrenheit, thermal expansion, thermal transfer, conduction, convection, radiation
    2. Temperature and Kinetic Energy
    3. Temperature Scales and Absolute Zero
    4. Calorimetry
    5. Conservation of energy
    6. Graphing and Analysis
  9. Sound
    1. Terminology: Sound, longitudinal waves, vibration, amplitude, wavelength, period, frequency, loudness, intensity, wave form, wavelength, tone, decibel, resonance, interference, Doppler effect, pitch, beats
    2. Sound Models
    3. Inverse Square Law
    4. Temperature dependence of speed of sound
    5. Frequency, Wavelength, Amplitude, speed
    6. Reflecting surfaces
    7. Graphing and analysis
  10. Electricity
    1. Terminology: Ohm, ampere, volt, direct current, fuse, alternating current, static electricity, nonconductors, insulators, conductors, current electricity
    2. Electrostatics
    3. Parallel and series circuits
    4. Ohm’s Law
    5. Power
    6. Analysis
  11. Magnetism
    1. Terminology: Magnet, magnetism, insulators, conductors, commutator, magnetic field, north pole, south pole, ferromagnetic, dipoles, domains, magnetic field, magnetic declination, inverse square law, electromagnet, generator, armature, hertz, frequency
    2. Magnetic and Non Magnetic materials
    3. Motors and Generators
    4. Magnetic Fields
    5. Inverse Square Law (special case)
    6. Graphing and Analysis
  12. Light
    1. Terminology: Radiant energy, electromagnetic waves, electromagnetic radiation, light, optical medium, refraction, transparent, translucent, opaque, convex lens, principal focus, concave lens, focal lengths, reflection, diffusion.
    2. Electromagnetic spectrum
    3. Law of Reflection
    4. Laws of Refraction
    5. Inverse Square Law
    6. Graphing and Analysis
  13. Color
    1. Terminology: color addition, color subtraction, complementary colors, constructive and destructive interference, cyan, diffraction grating, light, magenta, primary colors of light, prism, secondary colors of light, spectroscope, spectrum
    2. Spectrums
    3. Color Addition
    4. Color Subtraction
    5. Analysis

Primary Faculty
Fey, Francette
Secondary Faculty

Associate Dean
Young, Randall
Dean
Pritchett, Marie



Official Course Syllabus - Macomb Community College, 14500 E 12 Mile Road, Warren, MI 48088



Add to Favorites (opens a new window)