“Mu of the Shoe”
... different objects. Concept: When two surfaces of objects are in contact with each other, the force of friction between them depends on the nature of the materials in contact and the normal force. Competency: Construct a free body diagram indicating the magnitude and direction of the forces on an obj ...
... different objects. Concept: When two surfaces of objects are in contact with each other, the force of friction between them depends on the nature of the materials in contact and the normal force. Competency: Construct a free body diagram indicating the magnitude and direction of the forces on an obj ...
Inertia - bYTEBoss
... • By using inclines and simple trigonometry Galileo was able analyze mass and resulting acceleration as influenced by the constant force of gravity. ...
... • By using inclines and simple trigonometry Galileo was able analyze mass and resulting acceleration as influenced by the constant force of gravity. ...
Physics_U7
... A honeybee with a mass of 0.150g lands on a 4.75g popsicle stick. The bee runs toward the opposite end of the stick. The stick moves with a speed of 0.120 cm/s relative to the water. Find the speed of the bee. ...
... A honeybee with a mass of 0.150g lands on a 4.75g popsicle stick. The bee runs toward the opposite end of the stick. The stick moves with a speed of 0.120 cm/s relative to the water. Find the speed of the bee. ...
Force
... (1) sum of all forces is the net force. (2) net force can replace all forces acting on object and have the same result (3) forces added using vector math – more later on the process (4) net force will have magnitude and direction – critical to remember (5) Net force - combination of all forces actin ...
... (1) sum of all forces is the net force. (2) net force can replace all forces acting on object and have the same result (3) forces added using vector math – more later on the process (4) net force will have magnitude and direction – critical to remember (5) Net force - combination of all forces actin ...
Momentum and Impulse notes
... What does momentum and impulse have to do with each other? Momentum = mv If velocity changes, momentum changes, and acceleration (either + or –) occurs But we know: 1. for acceleration to occur, a force has to be applied. 2. If a given force is applied over a longer time, more acceleration occurs. ...
... What does momentum and impulse have to do with each other? Momentum = mv If velocity changes, momentum changes, and acceleration (either + or –) occurs But we know: 1. for acceleration to occur, a force has to be applied. 2. If a given force is applied over a longer time, more acceleration occurs. ...
click - Uplift Education
... you are NOT doing work if you are just holding a weight above your head (no distance moved) you do work only while you are lifting the weight above your head (force in the direction of distance moved) To be work, at least a component of the force must be in the plane of the movement If the for ...
... you are NOT doing work if you are just holding a weight above your head (no distance moved) you do work only while you are lifting the weight above your head (force in the direction of distance moved) To be work, at least a component of the force must be in the plane of the movement If the for ...
Unit 8 Momentum 6 lessons - science-b
... The 1st car has a mass of 1875 Kg and an initial velocity of 23.00 m/s @ 0.00º The 2nd car has a mass of 1025 Kg and an initial velocity of 17.00 m/s @ 0.00º After the collision: What is the velocity of the two cars if they both move off @ 0.00º ? #2 Two cars collide…and they stick together. The 1st ...
... The 1st car has a mass of 1875 Kg and an initial velocity of 23.00 m/s @ 0.00º The 2nd car has a mass of 1025 Kg and an initial velocity of 17.00 m/s @ 0.00º After the collision: What is the velocity of the two cars if they both move off @ 0.00º ? #2 Two cars collide…and they stick together. The 1st ...
Force
... problem. Glen suggests that the normal force is 50 N; Olive suggests that the normal force in the diagram is 75 N; and Warren suggests that the normal force is 100 N. While all three answers may seem reasonable, only one is correct. Indicate which two answers are wrong and explain why they are wrong ...
... problem. Glen suggests that the normal force is 50 N; Olive suggests that the normal force in the diagram is 75 N; and Warren suggests that the normal force is 100 N. While all three answers may seem reasonable, only one is correct. Indicate which two answers are wrong and explain why they are wrong ...
Force and Motion - Derry Area School District
... Suppose we have a mass being accelerated by a rope up a frictionless inclined plane. 1. Make a sketch. Identify the forces acting on the mass. Here we have identified tension, weight, and the normal force. ...
... Suppose we have a mass being accelerated by a rope up a frictionless inclined plane. 1. Make a sketch. Identify the forces acting on the mass. Here we have identified tension, weight, and the normal force. ...
Regular Note
... The box-floor surfaces were able to provide up to 25 Newton of static friction force to match your applied force. Yet the two surfaces were not able to provide 26 Newton of static friction force. The amount of static friction resulting from the adhesion of any two surfaces has an upper limit. In thi ...
... The box-floor surfaces were able to provide up to 25 Newton of static friction force to match your applied force. Yet the two surfaces were not able to provide 26 Newton of static friction force. The amount of static friction resulting from the adhesion of any two surfaces has an upper limit. In thi ...
Balanced And Unbalanced Forces We perform different types of
... The toy car comes to rest after some time because of the frictional force between the moving wheels of the car and the rough floor. This force acts in the direction opposite to the direction of motion of the car. This means that an unbalanced force acts on the car in the direction opposite to the di ...
... The toy car comes to rest after some time because of the frictional force between the moving wheels of the car and the rough floor. This force acts in the direction opposite to the direction of motion of the car. This means that an unbalanced force acts on the car in the direction opposite to the di ...