Name: Date: ______ 1. When building soap box cars which race by
... perform a decelerated rotation that is slow enough so that the car does not slide. Note that there is still some loss of heat to kinetic friction between the breaks and the tires. 24. While a coin tips over easily when you stand it on edge, a coin that's spinning on its edge stays up for a remarkabl ...
... perform a decelerated rotation that is slow enough so that the car does not slide. Note that there is still some loss of heat to kinetic friction between the breaks and the tires. 24. While a coin tips over easily when you stand it on edge, a coin that's spinning on its edge stays up for a remarkabl ...
KEY - Hollocker
... 5. The moment of inertia of a rotating solid disk about an axis through its CM is ½ MR2. Suppose instead that a parallel axis of rotation passes through a point on the edge of the disk. Will the moment of inertia be the same, larger, or smaller? Explain why. The moment of inertia will be larger when ...
... 5. The moment of inertia of a rotating solid disk about an axis through its CM is ½ MR2. Suppose instead that a parallel axis of rotation passes through a point on the edge of the disk. Will the moment of inertia be the same, larger, or smaller? Explain why. The moment of inertia will be larger when ...
Document
... d) Students should use their experiment and Newton’s 2nd law to base their prediction. The prediction should be quantitative. e) Newton’s 2nd law is the hypothesis mathematically it states: a = ΣF/m . The prediction should be qualitative or quantitative based on the experiment if Newton’s 2nd law is ...
... d) Students should use their experiment and Newton’s 2nd law to base their prediction. The prediction should be quantitative. e) Newton’s 2nd law is the hypothesis mathematically it states: a = ΣF/m . The prediction should be qualitative or quantitative based on the experiment if Newton’s 2nd law is ...
msess1 - North Bergen School District
... Model the relationships (basic Newtonian mechanics) between the orbiting motion of the planets around the Sun, the moons around the planets. Apply the components of Newton’s formula for his Law of Universal Gravitation to explain how the force of gravity depends on how much mass the objects has and ...
... Model the relationships (basic Newtonian mechanics) between the orbiting motion of the planets around the Sun, the moons around the planets. Apply the components of Newton’s formula for his Law of Universal Gravitation to explain how the force of gravity depends on how much mass the objects has and ...
Training - studentorg
... increases and mass is held constant, then the distance the plastic cup travels increases as well. • When the mass increases and the input force is held constant, the distance traveled by the plastic cup will decrease. • Distance is a factor in acceleration, which is measured in (m/s2). • Mass and in ...
... increases and mass is held constant, then the distance the plastic cup travels increases as well. • When the mass increases and the input force is held constant, the distance traveled by the plastic cup will decrease. • Distance is a factor in acceleration, which is measured in (m/s2). • Mass and in ...
P2 Knowledge Powerpoint – Part 1
... •The size of acceleration depends on: • Size of the force • Mass of the object • The larger the resultant force on an object the greater its acceleration. • The greater the mass of an object, the smaller its acceleration will be for a given force. ...
... •The size of acceleration depends on: • Size of the force • Mass of the object • The larger the resultant force on an object the greater its acceleration. • The greater the mass of an object, the smaller its acceleration will be for a given force. ...
18 Lecture 18: Central forces and angular momentum
... namely, that for any central potential, angular momentum is a constant of motion. Note that the origin of this conservation law is the fact that the problem has spherical symmetry. Rotation around the origin leaves the potential invariant, implying the conservation of angular momentum. In particular ...
... namely, that for any central potential, angular momentum is a constant of motion. Note that the origin of this conservation law is the fact that the problem has spherical symmetry. Rotation around the origin leaves the potential invariant, implying the conservation of angular momentum. In particular ...
P2 Knowledge Powerpoint
... •The size of acceleration depends on: • Size of the force • Mass of the object • The larger the resultant force on an object the greater its acceleration. • The greater the mass of an object, the smaller its acceleration will be for a given force. ...
... •The size of acceleration depends on: • Size of the force • Mass of the object • The larger the resultant force on an object the greater its acceleration. • The greater the mass of an object, the smaller its acceleration will be for a given force. ...
Lecture Outline - Mechanical and Industrial Engineering
... • length [ft], time [s], force [lb, lbf] • mass is derived [m=W/g, 32.2 lb/ 32.2 ft/s2 = 1.0 slug] ...
... • length [ft], time [s], force [lb, lbf] • mass is derived [m=W/g, 32.2 lb/ 32.2 ft/s2 = 1.0 slug] ...
NEWTON`S FIRST LAW CONCEPTUAL WORKSHEET
... A metal ball is put into the end of the tube indicated by the arrow. The ball is then shot out of the other end of the tube at high speed. Pick the path the ball will follow after it exits the tube. Note – you are looking down on these tubes, they are not vertical. ...
... A metal ball is put into the end of the tube indicated by the arrow. The ball is then shot out of the other end of the tube at high speed. Pick the path the ball will follow after it exits the tube. Note – you are looking down on these tubes, they are not vertical. ...
File - Ms. Berenyi`s Classes
... Ability to do work To cause something to change move or directions Energy cannot be created or destroyed, but transferred from one form to another. Energy quality is lost due to friction / force/ heat. -From high quality energy to low quality energy. Newton’s 1st Law of Motion Every object ...
... Ability to do work To cause something to change move or directions Energy cannot be created or destroyed, but transferred from one form to another. Energy quality is lost due to friction / force/ heat. -From high quality energy to low quality energy. Newton’s 1st Law of Motion Every object ...
Energy and Forces in Motion MS
... constant speed and in a straight line unless acted upon by an unbalanced force.” An unbalanced force doesn’t just mean someone stopping the object. Gravity, air resistance and friction are all unbalanced forces. ...
... constant speed and in a straight line unless acted upon by an unbalanced force.” An unbalanced force doesn’t just mean someone stopping the object. Gravity, air resistance and friction are all unbalanced forces. ...
6. falling objects
... resistance is _______ so he _______ downwards. 2) As his speed increases his air resistance will _______ 3) Eventually the air resistance will be big enough to _______ the skydiver’s weight. At this point the forces are balanced so his speed becomes ________ - this is called TERMINAL VELOCITY ...
... resistance is _______ so he _______ downwards. 2) As his speed increases his air resistance will _______ 3) Eventually the air resistance will be big enough to _______ the skydiver’s weight. At this point the forces are balanced so his speed becomes ________ - this is called TERMINAL VELOCITY ...
Figure 12-1 Gravitational Force Between Point Masses
... to the ground. If the initial speed were high enough to cause the ball to travel in a circular trajectory around Earth, the ball’s acceleration would ...
... to the ground. If the initial speed were high enough to cause the ball to travel in a circular trajectory around Earth, the ball’s acceleration would ...
