8/17/2005 Examples of Physical Quantities.doc 1/6 Jim Stiles The University of Kansas Dept. of EECS Examples of Physical Quantities A. Discrete Scalar Quantities can be described with a single numeric value. Examples include: 1) My height (~ 6 ft.). 2) The weight of your text book (~ 1.0 lbs.) 3) The surface temperature of a specific location at a specific time. … indicating the surface temperature at a specific time and place! A discrete scalar quantity… Graphically, a discrete scalar quantity can be indicated as a point on a line, surface or volume, e.g.: T 100 Fo91 Fo 0 Fo8/17/2005 Examples of Physical Quantities.doc 2/6 Jim Stiles The University of Kansas Dept. of EECS B. Discrete Vector Quantities must be described with both a magnitude and a direction. Examples include: 1) The force I am exerting on the floor (180 lbs. +++, in a direction toward the center of the earth). 2) The wind velocity of a specific location at a specific time. We will find that a discrete vector can be graphically represented as an arrow: Discrete scalar quantities. A discrete vector quantity! The wind has a magnitude of 8 mph and is blowing from the southwest (its direction). 14 mph North 23 mph West A specific place and time! wherein the length of the arrow is proportional to the magnitude and the orientation indicates direction.8/17/2005 Examples of Physical Quantities.doc 3/6 Jim Stiles The University of Kansas Dept. of EECS C. Scalar Fields are quantities that must be described as one function of (typically) space and/or time. For example: 1) My weight as a function of time. Note that we cannot specify this as a single numerical value, as my weight has changed significantly over the course of my life! Instead, we must use a function of time to describe my weight: 2() 5.2 10 0.12Wtt=+ −t lbs. where t is my age in years. We can likewise graphically represent this scalar field by plotting the function W(t): Note that we can use this scalar field to determine discrete scalar values! For example, say we wish to determine my weight at birth. This is a discrete scalar value—it can be expressed numerically: 10 20 30 4050100150200 W(t) t 2( 0) 5.2 10(0) 0.12 (0) 5.2 lbs.Wt== + −= Why I’m always hungry!8/17/2005 Examples of Physical Quantities.doc 4/6 Jim Stiles The University of Kansas Dept. of EECS Note this discrete scalar value indicates my weight at a specific time (t=0). We likewise could determine my current weight (a discrete scalar value) by evaluating the scalar field W(t) at t =44 (Doh!). 2) The current surface temperature across the entire the U.S. Again, this quantity cannot be specified with a single numeric value. Instead, we must specify temperature as a function of position (location) on the surface of the U.S. , e.g.: ( , ) 80.0 0.1 0.2 0.003 ....Txy x y xy=+−+ + where x and y are Cartesian coordinates that specify a point in the U.S. Often, we find it useful to plot this function: y x8/17/2005 Examples of Physical Quantities.doc 5/6 Jim Stiles The University of Kansas Dept. of EECS Again, we can use this scalar field to determine discrete scalar values—we must simply indicate a specific location (point) in the U.S. For example: (, , ) 72 F(, , ) 97 F(, , ) 88 FTx y Seattle WATx y Dallas TXTxy ChicagoIL======DDD 88 97 72 D. Vector Fields are vector quantities that must be described as a function of (typically) space and/or time. Note that this means both the magnitude and direction of vector quantity are a function of time and/or space!8/17/2005 Examples of Physical Quantities.doc 6/6 Jim Stiles The University of Kansas Dept. of EECS An example of a vector field is the surface wind velocity across the entire U.S. Again, it is obvious that we cannot express this as a discrete vector quantity, as both the magnitude and direction of the surface wind will vary as a function of location (x,y): We can mathematically describe vector fields using vector algebraic notation. For example, the wind velocity across the US might be described as: 22ˆˆ(,) (2 )xyxy xya x y a=+−v Don’t worry! You will learn what this vector field expression means in the coming
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