1 / 27

Monday, September 27, 2010

Monday, September 27, 2010. Inkster High School Integrated Science: Mrs. Gall Hours 1 and 2. Monday, September 27, 2010 Silently Complete DO NOW and copy homework. Review Lesson Steps. Discuss DO NOW in class. Guided Notes- Review. Quiz Weds. 9/29 Finish Car/ ramp velocity lab if needed.

kail
Download Presentation

Monday, September 27, 2010

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Monday, September 27, 2010 Inkster High School Integrated Science: Mrs. Gall Hours 1 and 2

  2. Monday, September 27, 2010 • Silently Complete DO NOW and copy homework. • Review Lesson Steps. • Discuss DO NOW in class. • Guided Notes- Review. Quiz Weds. 9/29 • Finish Car/ ramp velocity lab if needed. • Graded Work is returned. • Late work accepted until 9/29 at full credit; by Friday, Oct. 1 for -25% late credit. No Late work from Sept 1 – 24 accepted after Oct. 1. • Homework due tomorrow: Review for Weds. quiz, makeup missing work DUE WEDS. due tomorrow: Review for Weds. quiz, makeup missing work DUE WEDS. Which are examples of constant velocity? Gravity, a toy car on a ramp, a book still on a table, a hockey puck sliding across ice, a NASCAR pace car... TLW describe and classify various motions in a plane and represent linear and circular motion on a graph and through motion diagrams.

  3. Which are examples of constant velocity? Gravity, a toy car on a ramp, a book still on a table, a hockey puck sliding across ice, a NASCAR pace car... constant velocity? acceleration? ACCELERATION OCCURS WHEN SPEED OR DIRECTION OF SPEED ARE CHANGING. IF POSITION CHANGES BUT NOT DIRECTION OR SPEED (RATE OF CHANGE) YOU’VE GOT CONSTANT VELOCITY... GRAVITY: acceleration (not constant velocity) toy car on ramp: not const. veloc. book- sitting still on table: CONSTANT VELOCITY HOCKEY PUCK: CONSTANT VELOCITY IF THERE IS NO FRICTION NASCAR PACE CAR: CONST. VELOC. UNLESS DIRECTION CHANGES

  4. Standard: ________ of Objects is an introduction to the topic, which will be further developed in Standard: Forces and Motion. _____ indicates how fast something happens or how much something changes in a given period of time (elapsed _____). _______is described by the rates of speed, ______, and ________. Speed is the rate at which an object is moving, or the total ________ covered over a time interval. Given a specified _____interval (e.g., one hour), the distance covered is proportional to the speed. If the amount of ____ is constant and speed increases, the distance traveled will increase. If time is constant, distance covered is proportional to rate. If time is constant and the rate increases, distances traveled will increase. • ________ is the speed of an object in a ___________). The change in speed can be either an increase or a decrease (negative ___________ or deceleration). • Speed and distance are _________ (a quantity that can be added, subtracted, multiplied, and divided like an ordinary number). Velocity and acceleration are considered ________ quantities, because they take the direction of the motion into account in addition to magnitude. They cannot simply be treated as an ordinary number. ___________ (the true measure from the starting point to the ending point rather than the actual distance traveled) is also considered a vector quantity. For example, if a person walks around a square city block and comes back to the starting point, the distance is 4 blocks and the ______ is 0. The use of the terms vector and scalar should be applied to distinguish between the vector quantities of displacement, velocity, and acceleration and the scalar quantities of distance and ______. • Motion can be described by a change in ______ relative to a _________. The motion of an object can be described by its speed and the ________ it is moving. The position and speed of an object can be measured and graphed as a function of time. • Motion can be classified as ______________, ______________, ___________ or __________. One-dimensional motion is movement of an object in a straight line. Two-dimensional motion is the movement of a projectile with both horizontal and vertical components. __________ motion is movement of an object a given distance around a single point. Rotation is the spinning of an object when it turns about its internal axis. Revolution is the _________ of an object as it turns (circles) around an external axis. For example, the spinning of the Earth is ________ (takes 24 hours), while the Earth circling the Sun is _________ (takes 365.25 days). _________ motion is back-and-forth movement of an object, such as a pendulum. • ______ is a push or pull. ___________ is the original force. ________ force is the opposite and equal force. Gravitational force is dependent upon an object’s mass. Centripetal force combined with ___________ causes objects to travel in a circular path. • Common Misconceptions Students may think that • speed and velocity are the same. • speed and acceleration are the same. • acceleration and velocity are the same. • the location of an object can be described by stating only its distance from a given point (ignoring direction) • the terms distance and displacement are synonymous and may be used interchangeably. • acceleration always means an object is speeding up.    • acceleration is always in a straight line. • QUIZ ROUGH DRAFT: INCLUDED FOR FORMAT

  5. Common Misconceptions Students may think that • speed and velocity are the same. • speed and acceleration are the same. • acceleration and velocity are the same. • the location of an object can be described by stating only its distance from a given point (ignoring direction) • the terms distance and displacement are synonymous and may be used interchangeably. • acceleration always means an object is speeding up.    • acceleration is always in a straight line.

  6. Key Concepts • Rate • Motion • Velocity • Time interval • Distance • Acceleration • Scalar

  7. Mrs. Gall’s study tips... • LOOK at the format of the text. If any words are in bold or italics, WRITE THOSE DOWN. • SKIM the text quickly. What are the key ideas? • WRITE DOWN key vocabulary words. • DON’T write down every word!

  8. Standard: Motion of Objects is an introduction to the topic, which will be further developed in Standard: Forces and Motion. Rate indicates how fast something happens or how much something changes in a given period of time (elapsed time). Motion is described by the rates of speed, velocity, and acceleration. Speed is the rate at which an object is moving, or the total distance covered over a time interval. Given a specified time interval (e.g., one hour), the distance covered is proportional to the speed. If the amount of time is constant and speed increases, the distance traveled will increase. If time is constant, distance covered is proportional to rate. If time is constant and the rate increases, distances traveled will increase.

  9. for example... Standard: Motion of Objects is an introRate=how fast somethg happens = how much it chgs in a period of time (elapsed time). Motionis descrb’d by the rates of speed, velocity, and acceleration. Speed = rate of object moving... OR total distance / time interval. In a time interval (ex: one hour), distancecovered is proportional (?) to speed. If amt of time is same & speed incr’s , the dist. travel’d will incr . If time is const., dist. is prop.(?) to rate. If time is const. & rateincr , dist’s traveled will incr.

  10. WHAT NOW? • I saw the word “proportional” and didn’t really see the point- so I put a (?) by it. • I should raise my hand and say “What does proportional mean?” or “Do I need to know anything about the word proportional?” • ALSO- I underlined a LOT of words that were repeated. I can study those.

  11. WHAT NOW? • ALSO- I underlined a LOT of words that were repeated. I can study those. • I can make notecards • I can write definitions • I can write sentences • I can draw pictures • I can study with a friend- have them quiz me to make sure I know what those words mean • I can try to use those words soon

  12. for example... Standard: Motion of Objects is an introRate=how fast somethg happens = how much it chgs in a period of time (elapsed time). Motionis descrb’d by the rates of speed, velocity, and acceleration. Speed = rate of object moving... OR total distance / time interval. In a time interval (ex: one hour), distancecovered is proportional (?) to speed. If amt of time is same & speed incr’s , the dist. travel’d will incr . If time is const., dist. is prop.(?) to rate. If time is const. & rateincr , dist’s traveled will incr.

  13. main ideas...

  14. SCALAR VS VECTOR • SCALAR • ONLY A NUMBER, NO DIRECTION • EXAMPLES: DISTANCE, SPEED • EXAMPLES: 3 METERS, 15 MPH • VECTOR • A NUMBER, AND ALSO DIRECTION • EXAMPLES: DISPLACEMENT, VELOCITY • EXAMPLES: 3 METERS UP , 15 MPH EAST

  15. Key Concepts • Vector • Displacement • Point of reference • Speed • Direction • Position • One-Dimensional Motion

  16. Velocity is the speed of an object in a given direction. Acceleration is the rate at which velocity changes (either a change in speed or a change in direction). The change in speed can be either an increase or a decrease (negative acceleration or deceleration). Speed and distance are scalar (a quantity that can be added, subtracted, multiplied, and divided like an ordinary number). Velocity and acceleration are considered vector quantities, because they take the direction of the motion into account in addition to magnitude. They cannot simply be treated as an ordinary number. Displacement (the true measure from the starting point to the ending point rather than the actual distance traveled) is also considered a vector quantity.

  17. Key Concepts • Two- Dimensional Motion • Circular Motion • Rotation • Revolution • Periodic motion • Force • Action force • Reaction

  18. Mrs. Gall’s study tips... • Abbreviate as many words as you can. • UNDERLINE any words or ideas that the teacher says out loud. • Ask another student to trade notes. What did they see that you missed? • READ your books or handouts. Are you sure you understand the main ideas?

  19. For example, if a person walks around a square city block and comes back to the starting point, the distance is 4 blocks and the displacement is 0. The use of the terms vector and scalar should be applied to distinguish between the vector quantities of displacement, velocity, and acceleration and the scalar quantities of distance and speed. Motion can be described by a change in position relative to a point of reference. The motion of an object can be described by its speed and the direction it is moving. The position and speed of an object can be measured and graphed as a function of time.

  20. Key Concepts • Gravitational force • Centripetal force • Inertia • Positive Acceleration • Negative Acceleration • Positive Velocity • Negative Velocity • Unbalanced Forces

  21. Mrs. Gall’s study tips... • LOOK at the format of the text. If any words are in bold or italics, WRITE THOSE DOWN. • SKIM the text quickly. What are the key ideas? • WRITE DOWN key vocabulary words. • DON’T write every word. • Abbreviate as many words as you can. • UNDERLINE any words or ideas that the teacher says out loud. • Ask another student to trade notes. What did they see that you missed? • READ your books or handouts. Are you sure you understand the main ideas? • ASK your teacher to explain further.

  22. Motion can be classified as one-dimensional, two-dimensional, circular, or periodic. One-dimensional motion is movement of an object in a straight line. Two-dimensional motion is the movement of a projectile with both horizontal and vertical components. Circular motion is movement of an object a given distance around a single point. Rotation is the spinning of an object when it turns about its internal axis. Revolution is the motion of an object as it turns (circles) around an external axis. For example, the spinning of the Earth is rotation (takes 24 hours), while the Earth circling the Sun is revolution (takes 365.25 days). Periodic motion is back-and-forth movement of an object, such as a pendulum.

  23. Key Concepts • Velocity • Time interval • Distance • Acceleration • Scalar • Vector • Displacement

  24. Force is a push or pull. Action force is the original force. Reaction force is the opposite and equal force. Gravitational force is dependent upon an object’s mass. Centripetal force combined with inertia causes objects to travel in a circular path.

  25. Standard: ________ of Objects is an introduction to the topic, which will be further developed in Standard: Forces and Motion. _____ indicates how fast something happens or how much something changes in a given period of time (elapsed _____). _______is described by the rates of speed, ______, and ________. Speed is the rate at which an object is moving, or the total ________ covered over a time interval. Given a specified _____interval (e.g., one hour), the distance covered is proportional to the speed. If the amount of ____ is constant and speed increases, the distance traveled will increase. If time is constant, distance covered is proportional to rate. If time is constant and the rate increases, distances traveled will increase. • ________ is the speed of an object in a ___________). The change in speed can be either an increase or a decrease (negative ___________ or deceleration). • Speed and distance are _________ (a quantity that can be added, subtracted, multiplied, and divided like an ordinary number). Velocity and acceleration are considered ________ quantities, because they take the direction of the motion into account in addition to magnitude. They cannot simply be treated as an ordinary number. ___________ (the true measure from the starting point to the ending point rather than the actual distance traveled) is also considered a vector quantity. For example, if a person walks around a square city block and comes back to the starting point, the distance is 4 blocks and the ______ is 0. The use of the terms vector and scalar should be applied to distinguish between the vector quantities of displacement, velocity, and acceleration and the scalar quantities of distance and ______. • Motion can be described by a change in ______ relative to a _________. The motion of an object can be described by its speed and the ________ it is moving. The position and speed of an object can be measured and graphed as a function of time. • Motion can be classified as ______________, ______________, ___________ or __________. One-dimensional motion is movement of an object in a straight line. Two-dimensional motion is the movement of a projectile with both horizontal and vertical components. __________ motion is movement of an object a given distance around a single point. Rotation is the spinning of an object when it turns about its internal axis. Revolution is the _________ of an object as it turns (circles) around an external axis. For example, the spinning of the Earth is ________ (takes 24 hours), while the Earth circling the Sun is _________ (takes 365.25 days). _________ motion is back-and-forth movement of an object, such as a pendulum. • ______ is a push or pull. ___________ is the original force. ________ force is the opposite and equal force. Gravitational force is dependent upon an object’s mass. Centripetal force combined with ___________ causes objects to travel in a circular path. • Common Misconceptions Students may think that • speed and velocity are the same. • speed and acceleration are the same. • acceleration and velocity are the same. • the location of an object can be described by stating only its distance from a given point (ignoring direction) • the terms distance and displacement are synonymous and may be used interchangeably. • acceleration always means an object is speeding up.    • acceleration is always in a straight line. • QUIZ ROUGH DRAFT: INCLUDED FOR FORMAT

More Related