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Introduction. Physics. What is Physics?. Most Basic of all Science. What is Physics?. 1) Attempts to describe the organization of the immediate environment the world the universe This includes all matter and energy. What is Physics?.
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Introduction Physics
What is Physics? • Most Basic of all Science.
What is Physics? 1) Attempts to describe the organization of the immediate environment the world the universe This includes all matter and energy
What is Physics? 2) Attempts to understand the natural laws that govern the world and the universe
What is Physics? 3) Offer processes that identify, understand, and apply these natural laws
Learning Physics • Physics is learned by
Learning Physics • Physics is learned by • Observing
Learning Physics • Physics is learned by • Observing • Asking questions (inquiry)
Learning Physics • Physics is learned by • Observing • Asking questions (inquiry) • Forming hypothesis that might answer these questions
Learning Physics • Physics is learned by • Observing • Asking questions (inquiry) • Forming hypothesis that might answer these questions • Performing experiments to prove or disprove the experiments
Learning Physics • Physics is learned by • Observing • Asking questions (inquiry) • Forming hypothesis that might answer these questions • Performing experiments to prove or disprove the experiments • Publish your findings and your experimental results
Learning Physics • Release a ball from your hand
Learning Physics • Release a ball from your hand 1) Observation
Learning Physics • Release a ball from your hand 1) Observation 2) Question ( Inquiry)
Learning Physics • Release a ball from your hand 1) Observation 2) Question (Inquiry) 3) Hypothesis
Learning Physics • Release a ball from your hand 1) Observation 2) Question (Inquiry) 3) Hypothesis 4) Experimental evidence to support hypothesis
Learning Physics • Release a ball from your hand 1) Observation 2) Question (Inquiry) 3) Hypothesis 4) Experimental evidence to support hypothesis 5) Publish your results
Learning Physics • Ask a question
Learning Physics • Ask a question • Why does it take more force to move heavier objects?
Matter What is matter?
Matter What is matter? Something that has mass
Matter 1. Why does the motion of matter change? 2. Why does matter move? 3. How does matter interact with energy? 4. How does matter interact with matter? 5. Why does matter have charge?
Matter 1. Why does the motion of matter change? • Contact force • Force fields 2. Why does matter move? • Contact force • Force fields 3. How does matter interact with energy? 4. How does matter interact with matter? 5. Why does matter have charge?
Matter 1. Why does the motion of matter change? • Contact force • Force fields 2. Why does matter move? • Contact force • Force fields 3. How does matter interact with energy? • heat up, cool down • give off light, absorb light • reflect energy • transmit energy • bend light waves 4. How does matter interact with matter? 5. Why does matter have charge?
Matter 1. Why does the motion of matter change? • Contact force • Force fields 2. Why does matter move? • Contact force • Force fields 3. How does matter interact with energy? • heat up, cool down • give off light, absorb light • reflect energy • transmit energy • bend light waves 4. How does matter interact with matter? • collisions 5. Why does matter have charge? • Imbalance between the number of electrons and protons
Matter 1. Why does the motion of matter change? • Contact force • Force fields 2. Why does matter move? • Contact force • Force fields 3. How does matter interact with energy? • heat up, cool down • give off light, absorb light • reflect energy • transmit energy • bend light waves 4. How does matter interact with matter? • collisions 5. Why does matter have charge?
Matter 1. Why does the motion of matter change? • Contact force • Force fields 2. Why does matter move? • Contact force • Force fields 3. How does matter interact with energy? • heat up, cool down • give off light, absorb light • reflect energy • transmit energy • bend light waves 4. How does matter interact with matter? • collisions 5. Why does matter have charge?
The Structure of Matter • mass • Why does mass of an object vary with: • size • density • relative density • buoyancy • charge • positive • negative • neutral • atomic structure • nucleus • electrons
Physics attempts to bring order to our observations by using the scientific method • Make an observation. • Form a testable hypothesis • Test the hypothesis • Form a conclusion • Hypothesis rejected • Hypothesis is modified and retested • Hypothesis is accepted • Publish the hypothesis for others to test If the hypothesis is generally accepted it becomes a THEORY
Motion Repositioning of an object from one location to another location
Motion Aristotle (384-322 BC) His hypothesis on natural state of an objects motion on earth Observation: Never observed an object in motion on earth that did not eventually slow and stop Hypothesis • Natural state of motion for an object on earth was to be at rest
Motion Aristotle (384-322 BC) His hypothesis on natural state of an objects motion on earth Observation: Never observed an object in motion on earth that did not eventually slow and stop Hypothesis • Natural state of motion for an object on earth was to be at rest Was this a reasonable hypothesis?
Motion Aristotle (384-322 BC) His hypothesis on natural state of an objects motion on earth Observation: Never observed an object in motion on earth that did not eventually slow and stop Hypothesis • Natural state of motion for an object on earth was to be at rest Was this a reasonable hypothesis? Maybe, but he never tested his hypothesis.
Motion Repositioningof an object from one location to another location Aristotle (384-322 BC) His hypothesis on natural state of an objects motion on earth Observation: Never observed an object in motion on earth that did not eventually slow and stop Hypothesis • Natural state of motion for an object on earth was to be at rest Was this a reasonable hypothesis? Maybe, but he never tested his hypothesis. • THERFORE this was NOT a reasonable hypothesis
Motion Galileo (1664-1642 AD) His hypothesis on natural state of an object’s motion on earth Observation: objects changed velocity at different rates depending on friction Hypothesis: object will move with a constant speed and direction unless interfered with by an unbalanced force
Motion Galileo (1664-1642 AD) His hypothesis on natural state of an objects motion on earth Observation: objects changed speed at different rates depending on friction Hypothesis: object will move with a constant speed and direction unless interfered with by an unbalanced force Tested his hypothesis by rolling marbles along surfaces of varying friction
Motion Galileo (1664-1642 AD) His hypothesis on natural state of an objects motion on earth Observation: objects changed speed at different rates depending on friction Hypothesis: object will move with a constant speed and direction unless interfered with by an unbalanced force Tested his hypothesis by rolling marbles along low friction surfaces Found speed varied inversely with friction
Motion Galileo (1664-1642 AD) His hypothesis on natural state of an objects motion on earth Observation: objects changed speed at different rates depending on friction Hypothesis: object will move with a constant speed and direction unless interfered with by an unbalanced force Tested his hypothesis by rolling marbles along low friction surfaces Found speed and direction varied inversely with friction This lead directly to Isaac Newton’s 1st Law of Motion
2nd Example of Early Proper Application of Scientific Method
Geocentric Universe Earth centered universe Observations all stars, planets and sun appeared to revolve around earth
Geocentric Universe Earth centered universe Observations all stars, planets and sun appeared to revolve around earth More accurate observations showed that this hypothesis did not support all observations
Geocentric Universe More accurate observation should that this hypothesis did not support all observations • Retrograde motion of planets • Moon like phases of planet Venus
Geocentric Universe More accurate observation should that this hypothesis did not support all observations • Retrograde motion of planets • Moon like phases of planet Venus • This gave rise to helios-centered universe
Helios-Centered Universe • Further observations found this to be flawed
Helios-Centered Universe • Further observations found this to be flawed • Ultimately lead to current hypothesis of the Big Bang Theory • Evidence • Red shift
Other Ideas and Observations that lead to scientific discoveries 1. Biology: twitching frog leg that introduced role of potential difference (voltage) in muscle contraction 2. Leonardo da Vinci: imagined and formulated the forces involved in the Roman arch 3.Interaction of nuclear forces inside of an atom
Models, Theories, & Laws • model Is an imagined explanation of a phenomena. It is often a comparison to something we are familiar with. Gives an approximate mental picture of what we can not see actually happening.
Models, Theories, & Laws • model Is an imagined explanation of a phenomena. It is often a comparison to something we are familiar with. Gives an approximate mental picture of what we can not see actually happening. Example: light waves, can make many comparisons to water waves