4th Grade Force and Motion Deconstruction
... Inertia (Inertia from Italian inerta, which means lazy. Objects are basically lazy. They will stay at rest or remain in motion unless something “forces” them to do something else.) Know that if you have a given force (constant), the more mass you have the less change in motion will be observed. Know ...
... Inertia (Inertia from Italian inerta, which means lazy. Objects are basically lazy. They will stay at rest or remain in motion unless something “forces” them to do something else.) Know that if you have a given force (constant), the more mass you have the less change in motion will be observed. Know ...
Chapter 6 Work and Energy
... Consider a constant net external force acting on an object. The object is displaced a distance s, in the same direction as the net force. ...
... Consider a constant net external force acting on an object. The object is displaced a distance s, in the same direction as the net force. ...
chapter8_PC - Wikispaces : gandell
... There is a major difference between moment of inertia and mass: the moment of inertia depends on the quantity of matter and its distribution in the rigid object. The moment of inertia also depends upon the location of the axis of rotation ...
... There is a major difference between moment of inertia and mass: the moment of inertia depends on the quantity of matter and its distribution in the rigid object. The moment of inertia also depends upon the location of the axis of rotation ...
Kindergarten CPSD Science Curriculum Guide
... and conceptual, but not quantitative addition of forces are used at this level.) The patterns of an object’s motion in various situations can be observed and measured; when past motion exhibits a regular pattern, future motion can be predicted from it. (Boundary: Technical terms, such as magnitude, ...
... and conceptual, but not quantitative addition of forces are used at this level.) The patterns of an object’s motion in various situations can be observed and measured; when past motion exhibits a regular pattern, future motion can be predicted from it. (Boundary: Technical terms, such as magnitude, ...
09 Newtons Second Law
... 5. You are now ready to collect force and acceleration data. Grasp the Force Sensor hook. Click and take several seconds to move the cart back and forth on the table. Vary the motion so that both small and large forces are applied. Make sure that your hand is only touching the hook on the Force Sens ...
... 5. You are now ready to collect force and acceleration data. Grasp the Force Sensor hook. Click and take several seconds to move the cart back and forth on the table. Vary the motion so that both small and large forces are applied. Make sure that your hand is only touching the hook on the Force Sens ...
Projectiles
... Projectile motion • Compare the horizontal motion of the gravity free path and the projectile motion. • Compare the vertical motion and the projectile motion. ...
... Projectile motion • Compare the horizontal motion of the gravity free path and the projectile motion. • Compare the vertical motion and the projectile motion. ...
Notes
... angular acceleration (α). All the angular variables are related to the straight-line variables by a factor of r, the distance from the center of rotation to the point you're interested in. ...
... angular acceleration (α). All the angular variables are related to the straight-line variables by a factor of r, the distance from the center of rotation to the point you're interested in. ...
nt2_Formal_Exercises - Glen Urquhart High School
... 6. Carry out calculations involving the relationship between weight, mass and gravitational field strength including situations where g is not equal to 10 N/kg. 7. State that the force of friction can oppose the motion of a body. 8. Describe and explain situations in which attempts are made to incre ...
... 6. Carry out calculations involving the relationship between weight, mass and gravitational field strength including situations where g is not equal to 10 N/kg. 7. State that the force of friction can oppose the motion of a body. 8. Describe and explain situations in which attempts are made to incre ...
Class notes
... Use this to find the solution to the equation of motion for a particle of mass m subject to a force F (x) = −kx where k is a positive constant. Write down the equation of motion as ẍ(t) = F/m. Then show that x(t) = Ceiωt is a solution to the equation of motion, for any value of C, so long as ω has ...
... Use this to find the solution to the equation of motion for a particle of mass m subject to a force F (x) = −kx where k is a positive constant. Write down the equation of motion as ẍ(t) = F/m. Then show that x(t) = Ceiωt is a solution to the equation of motion, for any value of C, so long as ω has ...
