Monday, January 12
... • The raw egg (Egg 2) should start to turn again. This is because the motion of the liquid within the egg is still going; the force you exerted was not enough to stop both the inertia of the shell and the inertia of the liquid inside of it. If you held the egg longer, enough force would have been ex ...
... • The raw egg (Egg 2) should start to turn again. This is because the motion of the liquid within the egg is still going; the force you exerted was not enough to stop both the inertia of the shell and the inertia of the liquid inside of it. If you held the egg longer, enough force would have been ex ...
2103-617: Advanced Dynamics Handout # 2: Review of Dynamic
... the motion of the pendulum for any arbitrary θ (t). In addition, this system has one degree of freedom, thus only one equation of motion is needed. Specifically, the number of equations of motion used to describe the motion is equal to the number of degrees of freedom of that system. If only the sma ...
... the motion of the pendulum for any arbitrary θ (t). In addition, this system has one degree of freedom, thus only one equation of motion is needed. Specifically, the number of equations of motion used to describe the motion is equal to the number of degrees of freedom of that system. If only the sma ...
Force and Motion Study Guide Please keep this to use as a review
... Weight: the pull of gravity on an object’s mass Speed: distance divided by time Velocity: an object’s speed and direction Matter: anything that has mass and takes up space Acceleration: a change in speed or direction (a change in velocity) Balanced Forces: equal and opposite forces resulting in ...
... Weight: the pull of gravity on an object’s mass Speed: distance divided by time Velocity: an object’s speed and direction Matter: anything that has mass and takes up space Acceleration: a change in speed or direction (a change in velocity) Balanced Forces: equal and opposite forces resulting in ...
ΣF = ma
... 3) changing directions from moving downward to moving upward Similarly, negative acceleration is reflected by two conditions: 1) decrease in CG speed as the CG moves upward 2) increase in CG speed as the CG moves downward 3) changing directions from moving upward to moving downward Procedures: A ser ...
... 3) changing directions from moving downward to moving upward Similarly, negative acceleration is reflected by two conditions: 1) decrease in CG speed as the CG moves upward 2) increase in CG speed as the CG moves downward 3) changing directions from moving upward to moving downward Procedures: A ser ...
uniform circular motion
... Uniform circular motion means Constant rotation speed • How far? – Angular displacement ...
... Uniform circular motion means Constant rotation speed • How far? – Angular displacement ...
Newton`s 1st Law of Motion
... box problem is placedinvolving on a smooth wooden table. A force of 14 N Example friction: is necessary to to keep the box moving at a constant velocity. If the box has a weight of 40 N… ...
... box problem is placedinvolving on a smooth wooden table. A force of 14 N Example friction: is necessary to to keep the box moving at a constant velocity. If the box has a weight of 40 N… ...
Newton`s Second Law of Motion
... a. Attach the WDSS to the cart and find the mass of the cart with the WDSS attached. Record the mass in the data table. b. Turn on the WDSS. Note the name on the label of the device. c. Activate Bluetooth on your computer or connect a Bluetooth USB Adapter and ensure it is on. d. Start Logger Pro an ...
... a. Attach the WDSS to the cart and find the mass of the cart with the WDSS attached. Record the mass in the data table. b. Turn on the WDSS. Note the name on the label of the device. c. Activate Bluetooth on your computer or connect a Bluetooth USB Adapter and ensure it is on. d. Start Logger Pro an ...
Take-Home Packet to Accompany In
... 1. Friction is a force that results whenever two surfaces are _______________ together. 2. Friction turns work into _________. 3. If you tie a ______________, it’s held together by friction. 4. Friction _________ _________ moving things and turns motion energy into ___________. 5. In _______________ ...
... 1. Friction is a force that results whenever two surfaces are _______________ together. 2. Friction turns work into _________. 3. If you tie a ______________, it’s held together by friction. 4. Friction _________ _________ moving things and turns motion energy into ___________. 5. In _______________ ...
4. Circular Motion and SHM (all higher level)
... (iii)Draw a diagram to show the forces acting on the suspended mass when the seismometer is at rest. (iv) At rest, the tension in the spring is 49 N. What is the value, in kilograms, of the suspended mass? (v) What type of motion does the frame have when it moves relative to the mass? (vi) During an ...
... (iii)Draw a diagram to show the forces acting on the suspended mass when the seismometer is at rest. (iv) At rest, the tension in the spring is 49 N. What is the value, in kilograms, of the suspended mass? (v) What type of motion does the frame have when it moves relative to the mass? (vi) During an ...
Ch. 4
... • Downward force is weight. • a = weight/mass • but an object with twice the mass will have twice the weight… • so the accelerations are the same… • We call this acceleration “g”. • g is about 10m/s/s downward. ...
... • Downward force is weight. • a = weight/mass • but an object with twice the mass will have twice the weight… • so the accelerations are the same… • We call this acceleration “g”. • g is about 10m/s/s downward. ...
inertia! - Mr-Durands
... called inertia. • Inertia is the tendency of an object to resist any change in its motion. ...
... called inertia. • Inertia is the tendency of an object to resist any change in its motion. ...
Physics 131 Review Translational Kinematics: Position ( ): location relative to an origin
... Friction is not a conservative force, and hence there is no potential energy associated with it. The force dissipates energy rather than “storing” it as a spring does. Conservation of Mechanical Energy: If only conservative forces act upon an object, the total mechanical energy of the object is ...
... Friction is not a conservative force, and hence there is no potential energy associated with it. The force dissipates energy rather than “storing” it as a spring does. Conservation of Mechanical Energy: If only conservative forces act upon an object, the total mechanical energy of the object is ...