First Semester
... you had in high school. Oh, yes you did. Don’t tell me you didn’t. We will often use scientific notation to express our numbers, because this allows us to express large and small numbers conveniently (and also express the precision of those numbers). We will need the basic algebra operations of powe ...
... you had in high school. Oh, yes you did. Don’t tell me you didn’t. We will often use scientific notation to express our numbers, because this allows us to express large and small numbers conveniently (and also express the precision of those numbers). We will need the basic algebra operations of powe ...
The Laws of Motion - Seattle Central College
... kicked, as in Figure 5.1c, it is both deformed and set in motion. These situations are all examples of a class of forces called contact forces. That is, they involve physical contact between two objects. Other examples of contact forces are the force exerted by gas molecules on the walls of a contai ...
... kicked, as in Figure 5.1c, it is both deformed and set in motion. These situations are all examples of a class of forces called contact forces. That is, they involve physical contact between two objects. Other examples of contact forces are the force exerted by gas molecules on the walls of a contai ...
The Laws of Motion Chapter 5
... Such a reference frame is called an inertial frame of reference. When the puck is on the air hockey table located on the ground, you are observing it from an inertial reference frame—there are no horizontal interactions of the puck with any other objects and you observe it to have zero acceleration ...
... Such a reference frame is called an inertial frame of reference. When the puck is on the air hockey table located on the ground, you are observing it from an inertial reference frame—there are no horizontal interactions of the puck with any other objects and you observe it to have zero acceleration ...
From Intuitive Physics to Star Trek
... research in conceptual development and especially refer to the findings and ideas of the New Zealand physics educator Roger Osborne (See IL 3 ). He argued that students see the world of motion by way of what he calls “clusters of mini-theories” that allows them to interact with their environment, to ...
... research in conceptual development and especially refer to the findings and ideas of the New Zealand physics educator Roger Osborne (See IL 3 ). He argued that students see the world of motion by way of what he calls “clusters of mini-theories” that allows them to interact with their environment, to ...
Slides for Motion and Forces
... You probably measure yourself on a scale in pounds. One pound is equal to 4.448 newtons. Just like velocity, force has direction. When forces are demonstrated both magnitude and direction should be shown. ...
... You probably measure yourself on a scale in pounds. One pound is equal to 4.448 newtons. Just like velocity, force has direction. When forces are demonstrated both magnitude and direction should be shown. ...
Vectors - Light and Matter
... and an amount. The amount is called its magnitude. The notation for the magnitude of a vector A is |A|, like the absolute value sign used with scalars. Often, as in example (b), we wish to use the vector notation to represent adding up all the x components to get a total x component, etc. The plus s ...
... and an amount. The amount is called its magnitude. The notation for the magnitude of a vector A is |A|, like the absolute value sign used with scalars. Often, as in example (b), we wish to use the vector notation to represent adding up all the x components to get a total x component, etc. The plus s ...
Read Rebuttal Here - Galileo Was Wrong
... His arguments in this paper fail because they are mainly based on classical mechanics, in which there is no such dynamic equivalence. In classical mechanics, rotating and accelerating frames can be absolutely distinguished from non-accelerating or inertial frames, and according to classical mechanic ...
... His arguments in this paper fail because they are mainly based on classical mechanics, in which there is no such dynamic equivalence. In classical mechanics, rotating and accelerating frames can be absolutely distinguished from non-accelerating or inertial frames, and according to classical mechanic ...
Chapter 5 Resource: Motion, Forces, and Simple Machines
... 1. Should you conduct this lab on a flat surface or on a hill? ...
... 1. Should you conduct this lab on a flat surface or on a hill? ...
Centripetal Acceleration
... OpenStax College This work is produced by OpenStax-CNX and licensed under the Creative Commons Attribution License 3.0† ...
... OpenStax College This work is produced by OpenStax-CNX and licensed under the Creative Commons Attribution License 3.0† ...
Chapter 4
... net force is needed to keep it moving. In other words, an object acted on by no net force moves with constant velocity (which may be zero) and thus with zero acceleration. Everyday experience may seem to contradict this statement. Suppose you give a push to a hockey puck on a table, as shown in Figu ...
... net force is needed to keep it moving. In other words, an object acted on by no net force moves with constant velocity (which may be zero) and thus with zero acceleration. Everyday experience may seem to contradict this statement. Suppose you give a push to a hockey puck on a table, as shown in Figu ...
Chapter 22 Three Dimensional Rotations and Gyroscopes
... Most of the examples and applications we have considered concerned the rotation of rigid bodies about a fixed axis. However, there are many examples of rigid bodies that rotate about an axis that is changing its direction. A turning bicycle wheel, a gyroscope, the earth’s precession about its axis, ...
... Most of the examples and applications we have considered concerned the rotation of rigid bodies about a fixed axis. However, there are many examples of rigid bodies that rotate about an axis that is changing its direction. A turning bicycle wheel, a gyroscope, the earth’s precession about its axis, ...