First Law of Motion - Fort Thomas Independent Schools
... It is possible to change weight (only) if the person moves further from the Earth’s surface or to another place (such as the moon). ...
... It is possible to change weight (only) if the person moves further from the Earth’s surface or to another place (such as the moon). ...
04_Force and Motion
... 4.5 More on Newton’s Laws: FreeBody Diagrams and Translational Equilibrium If an object is to be in translational equilibrium, there must be no net force on it. This translates into three separate requirements—that there be no force in the x-direction, the y-direction, or the z-direction. ...
... 4.5 More on Newton’s Laws: FreeBody Diagrams and Translational Equilibrium If an object is to be in translational equilibrium, there must be no net force on it. This translates into three separate requirements—that there be no force in the x-direction, the y-direction, or the z-direction. ...
Newton and Kepler`s Third Law
... is acting on it. • Earth experiences no twisting force as it orbits the Sun, so its orbit will continue indefinitely. ...
... is acting on it. • Earth experiences no twisting force as it orbits the Sun, so its orbit will continue indefinitely. ...
Rolling Motion: • A motion that is a combination of rotational
... • A particle does not have to travel in a circle to have angular momentum. A particle traveling in a straight line has angular momentum relative to a particular point. • If a point that the angular momentum is defined relative to is along the momentum vector, then the angular momentum is zero (r ⊥ = ...
... • A particle does not have to travel in a circle to have angular momentum. A particle traveling in a straight line has angular momentum relative to a particular point. • If a point that the angular momentum is defined relative to is along the momentum vector, then the angular momentum is zero (r ⊥ = ...
Simple Harmonic Motion – Concepts
... function. This is done for the case of the oscillating spring-mass system in the table below and the three functions are shown in Figure 3. Note that the positive direction is typically chosen to be the direction that the spring is stretched. Therefore, the positive direction in this case is down an ...
... function. This is done for the case of the oscillating spring-mass system in the table below and the three functions are shown in Figure 3. Note that the positive direction is typically chosen to be the direction that the spring is stretched. Therefore, the positive direction in this case is down an ...
Course Syllabus
... 5.understand linear and angular impulse-momentum principles, conservation of linear momentum of system of particles, impact. 6.understand planar kinematics of rigid bodies; rigid body motion, translation, rotation about fixed axis. 7.understand absolute general motion, relative motion, instantaneous ...
... 5.understand linear and angular impulse-momentum principles, conservation of linear momentum of system of particles, impact. 6.understand planar kinematics of rigid bodies; rigid body motion, translation, rotation about fixed axis. 7.understand absolute general motion, relative motion, instantaneous ...
centripetal force
... Second Law says that if an object is accelerating, there must be a net force on it. For an object moving in a circle, this is called the centripetal force. centripetal force points toward the center of the circle. ...
... Second Law says that if an object is accelerating, there must be a net force on it. For an object moving in a circle, this is called the centripetal force. centripetal force points toward the center of the circle. ...
Quantum Mechanics-linear momentum
... The kinetic energy equations are exceptions to the above replacement rule. The equations are still one-dimensional, but each scalar represents the magnitude of the vector, for example, Each vector equation represents three scalar equations. Often coordinates can be chosen so that only two components ...
... The kinetic energy equations are exceptions to the above replacement rule. The equations are still one-dimensional, but each scalar represents the magnitude of the vector, for example, Each vector equation represents three scalar equations. Often coordinates can be chosen so that only two components ...
chapter7_PC
... Positive angular accelerations are in the counterclockwise direction and negative accelerations are in the clockwise direction When a rigid object rotates about a fixed axis, every portion of the object has the same angular speed and the same angular acceleration ...
... Positive angular accelerations are in the counterclockwise direction and negative accelerations are in the clockwise direction When a rigid object rotates about a fixed axis, every portion of the object has the same angular speed and the same angular acceleration ...
here
... Unclear work will not be graded. Use g=10m/s2. Write the conservation of energy equations for any mathematical problem. 1. Describe the law of conservation of energy in your own terms. 2. What are the units for: a) Kinetic Energy b) Spring Energy d) Work ...
... Unclear work will not be graded. Use g=10m/s2. Write the conservation of energy equations for any mathematical problem. 1. Describe the law of conservation of energy in your own terms. 2. What are the units for: a) Kinetic Energy b) Spring Energy d) Work ...
