Marcus Tung Friday‚ October 5‚ 2012 Lab Report: Newton’s Second Law Trial: 1 |Mass of cart with sensors (kg) |0.877 kg | |Regression line for force vs. acceleration data | |Y= 0.8325x + 0.05480 | |
Premium Mass
Newton’s Second Law Lab Preliminary Questions 1. When you push on an object‚ the magnitude of the force on the object directly affects it’s motion. If you push harder on the object‚ it’s motion is larger. 2. If we have a bowling ball‚ and a baseball each suspended from a different rope‚ and hit each ball with a full swing of a baseball bat‚ the ball that will have the greatest amount of change in it’s motion will be the baseball. This is true because the baseball has a smaller mass than a bowling
Premium Classical mechanics Newton's laws of motion Mass
Blake Martinez November 1‚ 2013 Lab Write-up Group: Blake‚ Eric‚ Nadia‚ Fidelia Newton’s Third Law Purpose: The purpose of this lab is to calibrate two force sensors properly. Observe the directional relationship between force pairs. Observe the time variation of force pairs. We need to explain Newton’s third law in simple language. Materials: LabPro Interface Two Vernier force sensors .5kg mass String Rubber band DataMate Program Preliminary: 1. The force of the window
Premium
Newton`s Second Law – Lab Report Name: Tasneen Ahsan Date: 19th November‚ 2012 Purpose To show how the acceleration of an object changes when‚ the mass changes and the net force is kept constant and when the mass is the same.. Hypothesis I predict that by changing the mass of the object will result in a change in the acceleration as Newton`s second law states that the magnitude of the acceleration of any object is directly proportional to the magnitude
Premium Mass Force Acceleration
Alixandria Zeidel Physics 131 – section LZ Hasbrouck 208 10/01/14 Forces and Newton’s 2nd law Abstract The purpose of this lab was to learn about how force influences acceleration. A hanging mass is tied to a frictionless glider and the mass is dropped. While the glider is being pulled by the mass it is possible to measure to tension force on the rope between the two objects. A motion sensor graphs the movement of the system and from the slope it is possible to calculate the acceleration of both
Premium Force Aerodynamics Mass
“Law of Interaction” Law of Interaction “For every action‚ there is an equal and opposite reaction” The statement means that in every interaction‚ there is a pair of forces acting on the two interacting objects. The size of the forces on the first object equals the size of the force on the second object. Interaction between the hammer and nail A hammer exerts a force on the nail and drives it into a board . But this is not the only force present for there must also be a force exerted on
Premium Classical mechanics Newton's laws of motion Force
typically bring about rotary motion. The Laws of Motion form the foundation of dynamics. First Law of Motion An object will remain at rest or continue to move at a constant velocity unless acted upon by an external force. F = net force If F = 0 ⇒ v = constant Third Law of Motion For every action there is an equal but opposite reaction. These two forces (action & reaction) act on different bodies. Freaction Faction = − Freaction Faction Second Law of Motion When a net external force acts on
Free Force Classical mechanics
Experiment # 9 123123 Newton 2nd Law of Motion and The Atwood’s Machine Submitted to: Prof. Michelle Concepcion Submitted by: Arnold Jr. S. Cruz Discussion: The results of this lab reflect on the different kind of elevators. The mass is constant as if your not doing anything to change it. We feel heavy in a elevator because the accelerator is going up with an acceleration and not when it is going up with uniform speed. That
Premium Mass Force Classical mechanics
Newton’s three laws‚ when put into simple terms‚ aren’t confusing concepts. Just remember that an object is balanced until acted on by a larger force and then is still balanced when it goes at a constant speed until acted on again by a larger force that stops it. The second law is Force= mass X acceleration. And the third is all forces act in pairs‚ pretty simple right? Just remember this and the examples and the rest should make more sense. The three laws of motion explain how an
Free Newton's laws of motion Force Classical mechanics
Welcome to Tv6’s special today‚ I am ‚ and I will be your host‚ we will be reviewing 3 special segments that all involve Newton’s 3 laws. Let’s go take a look at the first one. As you just saw in this Polo segment‚ Newton’s first law is one of the reason this game exists‚ if you hit the ball with the polo sick the reason for the ball to continue in motion is because of Newton’s First Law‚ “An object in motion will remain in motion unless an external force acts upon it.” But the reasons behind the
Free Newton's laws of motion Classical mechanics