PowerPoint-Force and Motion
... What would be the net force being exerted on this box if the person on the right pushed with a force of 25 N and the person on the left pushed with a force of 17N? What direction would the box move? ...
... What would be the net force being exerted on this box if the person on the right pushed with a force of 25 N and the person on the left pushed with a force of 17N? What direction would the box move? ...
Notes (fill in)
... Math Skills: Newton’s Second Law Zookeepers lift a stretcher that holds a sedated lion. The total mass of the lion and stretcher is 175 kg, and the lion’s upward acceleration is 0.657 m/s2. What is the unbalanced force necessary to produce this acceleration of the lion and the stretcher? A. Given: ...
... Math Skills: Newton’s Second Law Zookeepers lift a stretcher that holds a sedated lion. The total mass of the lion and stretcher is 175 kg, and the lion’s upward acceleration is 0.657 m/s2. What is the unbalanced force necessary to produce this acceleration of the lion and the stretcher? A. Given: ...
Motion and Forces BLACKOUT AK
... of an object calculated if the forces are acting in the same directions? The net force on an object, if the forces are acting in the same direction, is calculated by adding the forces that are acting in the same direction and then finding the difference between the greater and lesser force if there ...
... of an object calculated if the forces are acting in the same directions? The net force on an object, if the forces are acting in the same direction, is calculated by adding the forces that are acting in the same direction and then finding the difference between the greater and lesser force if there ...
Dynamics
... If a force acts of a body, the body will accelerate. The ratio of the applied force to the resulting acceleration is the inertia (or mass) of the body. If a torque acts on a body that can rotate freely about some axis, the body will undergo an angular acceleration. The ratio of the applied torque to ...
... If a force acts of a body, the body will accelerate. The ratio of the applied force to the resulting acceleration is the inertia (or mass) of the body. If a torque acts on a body that can rotate freely about some axis, the body will undergo an angular acceleration. The ratio of the applied torque to ...
Force - springsphysics
... Push on a desk with your hand. your hand is distorted, showing a force is acting on it you can feel the desk pushing back on your hand Push harder! the harder you push on the desk the harder the desk pushes back on your hand You only feel the forces exerted on you. The forces must be ...
... Push on a desk with your hand. your hand is distorted, showing a force is acting on it you can feel the desk pushing back on your hand Push harder! the harder you push on the desk the harder the desk pushes back on your hand You only feel the forces exerted on you. The forces must be ...
If you put your cursor over a text box, it will be an arrow and WILL
... moves in the direction that the force ...
... moves in the direction that the force ...
Newton`s 2nd Law – Note Sheet
... ________________ of an object and set it equal to the ___________________. This makes Newton’s 2nd Law read as: ___________ = ____ ____ Before we continue any further, let’s see what we can tell about an objects motion just from this equation. First of all, we will assume that the mass of the object ...
... ________________ of an object and set it equal to the ___________________. This makes Newton’s 2nd Law read as: ___________ = ____ ____ Before we continue any further, let’s see what we can tell about an objects motion just from this equation. First of all, we will assume that the mass of the object ...
Circular Motion - Appoquinimink High School
... force, it will not move. Why not? • Static friction prevents objects from sliding. • Objects at rest require a minimum force to start moving. The force applied must be greater than static friction first. ...
... force, it will not move. Why not? • Static friction prevents objects from sliding. • Objects at rest require a minimum force to start moving. The force applied must be greater than static friction first. ...
Notes in pdf format
... An object is moving in a clockwise direction around a circle at constant speed. Use your understanding of the concepts of velocity, acceleration and force to answer the next five questions. Use the diagram shown at the bottom right. 1. Which vector below represents the direction of the force vector ...
... An object is moving in a clockwise direction around a circle at constant speed. Use your understanding of the concepts of velocity, acceleration and force to answer the next five questions. Use the diagram shown at the bottom right. 1. Which vector below represents the direction of the force vector ...
Physics Midterm Review #1
... 4. True/False Inertia is the reluctance any material object has to change in its state of motion. 5. True/False The combination of all the forces that act on an object is called the net force. 6. Whirl a rock at the end of a string and it follows a circular path. If the string breaks, the tendency o ...
... 4. True/False Inertia is the reluctance any material object has to change in its state of motion. 5. True/False The combination of all the forces that act on an object is called the net force. 6. Whirl a rock at the end of a string and it follows a circular path. If the string breaks, the tendency o ...
Centripetal Force
... B. one fourth of to maintain the circular motion of an object is inversely proportional to the radius of the circle. C. half of Everybody knows that it is harder to navigate a D. twice sharp turn than a wide turn. E. four times the force required to keep the object on the larger path. ...
... B. one fourth of to maintain the circular motion of an object is inversely proportional to the radius of the circle. C. half of Everybody knows that it is harder to navigate a D. twice sharp turn than a wide turn. E. four times the force required to keep the object on the larger path. ...
Vibrations and Waves
... Equations of Motion • What are the assumptions for which these equations can be used? • What if you have a different situation? x=A cos (2πƒt) = A cos ωt v = -2πƒA sin (2πƒt) = -A ω sin ωt a = -4π2ƒ2A cos (2πƒt) = -Aω2 cos ωt ...
... Equations of Motion • What are the assumptions for which these equations can be used? • What if you have a different situation? x=A cos (2πƒt) = A cos ωt v = -2πƒA sin (2πƒt) = -A ω sin ωt a = -4π2ƒ2A cos (2πƒt) = -Aω2 cos ωt ...
SHM Dynamics WS (honors)
... The restoring force of the spring when it is deformed is responsible for the acceleration pattern of the mass. The magnitude of this force depends on the amount by which the spring is deformed. The further it is stretched or compressed from its rest length, the greater restoring force it exerts. ...
... The restoring force of the spring when it is deformed is responsible for the acceleration pattern of the mass. The magnitude of this force depends on the amount by which the spring is deformed. The further it is stretched or compressed from its rest length, the greater restoring force it exerts. ...