Stability and Newton`s Laws
... • Force is proportional to acceleration • An object will continue at a constant speed in a linear direction unless acted upon by an outside force (ex gravity, friction etc) • The greater the applied force, the greater the resulting acceleration – provided mass is constant What is an example of this? ...
... • Force is proportional to acceleration • An object will continue at a constant speed in a linear direction unless acted upon by an outside force (ex gravity, friction etc) • The greater the applied force, the greater the resulting acceleration – provided mass is constant What is an example of this? ...
V. Angular momentum
... A uniform solid disk is set into rotation with an angular speed i about an axis through its center. While still rotating at this speed, the disk is placed into contact with a horizontal surface and released as in the Figure. (a) What is the angular speed of the disk once pure rolling takes place? ( ...
... A uniform solid disk is set into rotation with an angular speed i about an axis through its center. While still rotating at this speed, the disk is placed into contact with a horizontal surface and released as in the Figure. (a) What is the angular speed of the disk once pure rolling takes place? ( ...
Kinetic energy of rolling.
... A uniform solid disk is set into rotation with an angular speed ωi about an axis through its center. While still rotating at this speed, the disk is placed into contact with a horizontal surface and released as in the Figure. (a) What is the angular speed of the disk once pure rolling takes place? ...
... A uniform solid disk is set into rotation with an angular speed ωi about an axis through its center. While still rotating at this speed, the disk is placed into contact with a horizontal surface and released as in the Figure. (a) What is the angular speed of the disk once pure rolling takes place? ...
How Things Work - University of Illinois at Urbana–Champaign
... 1) Lifting a 10kg mass up by 1m. 2) Carrying a 1kg mass sideways by 10m. A) Lifting the 10kg mass B) Lifting the 1kg mass C) The work is the same for each Work = ( Force|| )( Distance ) ...
... 1) Lifting a 10kg mass up by 1m. 2) Carrying a 1kg mass sideways by 10m. A) Lifting the 10kg mass B) Lifting the 1kg mass C) The work is the same for each Work = ( Force|| )( Distance ) ...
Dynamics
... 4. Frictional Force - produced when one surface moves over another; acts in a direction resisting motion. 5. Gravitation Force produced by attraction of any two objects, acts downward on Earth ...
... 4. Frictional Force - produced when one surface moves over another; acts in a direction resisting motion. 5. Gravitation Force produced by attraction of any two objects, acts downward on Earth ...
Pdf - Text of NPTEL IIT Video Lectures
... Now will go back to our problem, this force which is acting at a distance e from the center of mass, what we can do now is, we can apply an equal and opposite force minus F and plus F here, then this becomes equivalent to a force passing through this and a moment acting on this, which is given by F ...
... Now will go back to our problem, this force which is acting at a distance e from the center of mass, what we can do now is, we can apply an equal and opposite force minus F and plus F here, then this becomes equivalent to a force passing through this and a moment acting on this, which is given by F ...
parent read the above
... 16. Inertia is the force that keeps objects in motion. 17. If two objects are both at rest, they have the same amount of inertia. 18. Velocity is absolute and not dependent on the frame of reference. 19. Action-reaction forces act on the same body. 20. There is no connection between Newton's Laws an ...
... 16. Inertia is the force that keeps objects in motion. 17. If two objects are both at rest, they have the same amount of inertia. 18. Velocity is absolute and not dependent on the frame of reference. 19. Action-reaction forces act on the same body. 20. There is no connection between Newton's Laws an ...
Class10
... •A reference defines the Kg, and the above definition defines force. •Force is a vector. Thus, forces add like vectors. This is something one has to test by experiment. •Forces obey the "principle of superposition.“ ...
... •A reference defines the Kg, and the above definition defines force. •Force is a vector. Thus, forces add like vectors. This is something one has to test by experiment. •Forces obey the "principle of superposition.“ ...
Rotational Inertia and Angular Momentum
... If this wheel was rotating, we would say its angular momentum is pointed in this direction. So it would want to stay rotating in that direction. ...
... If this wheel was rotating, we would say its angular momentum is pointed in this direction. So it would want to stay rotating in that direction. ...
Presentation
... athlete/object is in motion. Cyclist coasting at a constant velocity Skier coasting at a constant velocity ...
... athlete/object is in motion. Cyclist coasting at a constant velocity Skier coasting at a constant velocity ...
Vectors & Scalars
... When resolving a vector into components we are doing the opposite to finding the resultant We usually resolve a vector into components that are perpendicular to each other Here a vector v is resolved into an x component and a y component ...
... When resolving a vector into components we are doing the opposite to finding the resultant We usually resolve a vector into components that are perpendicular to each other Here a vector v is resolved into an x component and a y component ...
UNIT 2 EXAM – CELL REPRODUCTION
... now known as the EPR paper, a famous problem in the interpretation of Quantum Mechanics. Soon thereafter, he published what was to become one of the most celebrated paradoxes in quantum theory: Schroedinger's Cat. A cat is placed in a box, together with a radioactive atom. If the atom decays, and th ...
... now known as the EPR paper, a famous problem in the interpretation of Quantum Mechanics. Soon thereafter, he published what was to become one of the most celebrated paradoxes in quantum theory: Schroedinger's Cat. A cat is placed in a box, together with a radioactive atom. If the atom decays, and th ...
Lecture Notes for Section 11.3
... r t f t , g t , h t , we saw in section 11.2 that the derivative r t f t , g t , h t is a vector that is tangent to the curve and that points in the direction of motion at time t, which is consistent with what the direction of the velocity vector should be. ...
... r t f t , g t , h t , we saw in section 11.2 that the derivative r t f t , g t , h t is a vector that is tangent to the curve and that points in the direction of motion at time t, which is consistent with what the direction of the velocity vector should be. ...
