Sunday, January 5, 2020
Relationship Between Mass And Acceleration - 1419 Words
Hypothesis: In the world of force, when Physicists are talking about apply forces, the relationship between mass and acceleration has been attractive for long. Although Sir Isaac Newton has already solved this problem centuries ago, it is still crucial to perform an experiment to prove this relationship to enhance oneââ¬â¢s understanding in force. In order to pursue accuracy and objection in the lab, one assumes that he has no knowledge about Newtonââ¬â¢s Second Law. Begins from daily life, it is a common phenomena that an object needs more people to push to make a move. Based on this observation, one supposes that there is a relationship exists between the mass of an object and the acceleration of it. To be more specifical, when an object isâ⬠¦show more contentâ⬠¦Release the cart from the start line, use the timer to record the time it took to reach the end of the table. Time was recorded. Step 5 was repeated for two more times. Average time was calculated The 50g object was removed from the string while a mass of 150g object was tied to it. After removed all the mass from the cart, a mass of 100g was placed on it. Step 5 to 7 were repeated. The 150g object was removed from the string while a mass of 250g was replaced to the string. Removed all the mass from the cart. Step 5 to 7 were repeated. Part B: The pulley was fixed on the edge of the table, the string was tied to the cart and it was connected to the pulley. The height of the table was tested, based on the data, a start line was determined. A 100g object was tied to the string. A 50g object was placed on the cart. Released the cart from the start line and the travelling time was recorded. Repeat Step 5 for two times, times were recorded. Average time was calculated. Replace the mass on the cart with a mass of 100g. Step 5 to 7 were repeated. Replace the mass on the cart with a mass of 150g. Step 5 to 7 were repeated. Data: Part A Total Mass(g) Hanging Mass(g) Cart Mass(g)* Distance(m) Time(s)** 350 50 300 0.75 1.47 350 150 200 0.75 0.69 350 250 100 0.75 0.49 Part B Total Mass(g) Hanging Mass(g) Cart Mass(g)* Distance(m) Time(s)** 250 100 150 0.75 0.69 300 100 200 0.75 0.80 350 100 250 0.75Show MoreRelatedRelationship between Mass, Force and Acceleration: A Scientific Experiment2701 Words à |à 11 Pagesï » ¿Open-ended Investigation (mass and force) Aim: To show the relationship between Mass, the force acting on it, and acceleration by gathering data through investigations. Hypothesis: As Mass increases, Acceleration Decreases. Therefore, Acceleration is inversely proportional to mass. Introduction A force is a push or pull acting upon an object, as a result of its interaction with another object. In a state of motion, an object experiences different forces which influences its movement. There are manyRead MoreNewtons Second Law - Practical Report: To determine the relationship between force, mass and acceleration845 Words à |à 4 Pagesforce, mass and acceleration, and examine their influence on motion. b: To investigate the relationship between the variables; mass, force and acceleration and determine an inertial mass through the use of a trolley, ticker-timer and set of slotted masses. Introduction: Newton s second law states The acceleration of an object as produced by a net force is directly proportional to the magnitude of the net force, in the same direction as the net force, and inversely proportional to the mass of theRead MoreNewton s 2nd Law : The Physics Of Physics982 Words à |à 4 Pagessuch that it can determine the acceleration of an object based on its mass and the net force applied to the object. In this experiment, a glider was used to calculate the acceleration based on the hanging mass applied in the system. The goals of the experiment consisted of observing the relationship between acceleration and the applied force on an object which is represented in the experiment through the acceleration of the glider based on the amount of vertical mass. Concepts behind Newton s 2ndRead MoreAtwoo968 Words à |à 4 PagesObjective: We will determine the acceleration of the weights of an Atwoodââ¬â¢s Machine, both experimentally and theoretically. We will attempt to verify Newtonââ¬â¢s Second law which is a mathematical statement relating force, mass, and acceleration. à Newtonââ¬â¢s Second law states that acceleration, a, is directly related to net force, F, and inversely related to mass, m. Naturally this give F=ma. à Using the Atwoodââ¬â¢s Machine experimental acceleration data (for 10 different runs with 10 different combinationsRead MoreNewton s Second Law Of Motion772 Words à |à 4 Pagesvelocity, and acceleration known as Logger Pro, and a single 250 gram weight placed on the cart. The measurements for the length and height of the ramp were measured in meters, while the time it took the cart to travel down the ramp was measured in seconds. The purpose of using the two separate weights is to display the relationship between mass and acceleration when the frictionless cart is released at t he top of the declined ramp. When mass is applied to an object, its acceleration is decreasedRead MoreNewton s Second Law And The Relationship1174 Words à |à 5 PagesNewtonââ¬â¢s second law and the relationships between: Force and Acceleration, and Mass and Acceleration. Newtonââ¬â¢s Second Law states that any object that experiences a net or unbalanced force will undergo acceleration. Newton s second law of motion describes the relationship between force and acceleration. If you increase the force applied to an object, the acceleration of that object increases by the same factor. For Mass and Acceleration the net force on an object is equal to the mass of the object multipliedRead MoreNewtons Second Law Experiment1063 Words à |à 5 PagesAlso, what does the mass of the cart have to do with how the motion changes? We know that it takes a much harder push to get a heavy cart moving than a lighter one. A Force Sensor and an Accelerometer will let you measure the force on a cart simultaneously with the cartââ¬â¢s acceleration. The total mass of the cart is easy to vary by adding masses. Using these tools, you can determine how the net force on the cart, its mass, and its acceleration are related. This relationship is Newtonââ¬â¢s second lawRead MoreThe Physics Of Physics : Physics1053 Words à |à 5 Pagesdistance and speed components coming to play. The amount of materials used to make the car has a definite influence in the carââ¬â¢s mass, likewise effecting the acceleration. How smoothly the wheels coincide with the floor will depict the amount of friction being created which as well connects back to acceleration. Physics endeavors those key elements therefore creating a relationship with this lab. Having said this, the basis of this lab reflects the very fundamentals physics is based on. Physics has multipleRead MoreBiography Of Isaac Newton s Three Laws Of Motion1003 Words à |à 5 PagesGalileo Galilei died. Galileoââ¬â¢s work helped to influence or set the stage for the development and creation of Newtonââ¬â¢s three laws. Newtonââ¬â¢s three laws of motion consists of the first law which is the concepts of inertia, second law which is relating acceleration to its cause and lastly the third law which is action and reaction. The laws of motion were interpreted in the most famous and influential book of all time called, ââ¬Å"Philosophiae Naturalis Principia Mathematicaâ⬠created by Newton in 1687. The bookRead MoreAnalysis Of Newton s Second Law1371 Words à |à 6 PagesInstructor Date of Submission Experiment #4: Newtonââ¬â¢s Second Law Abstract The objectives of this lab were to: 1) investigate the acceleration of a puck yielding different values of force; 2) explore how equal forces accelerate different masses; and 3) explore the relationship between acceleration, mass, and force in accordance with Newtonââ¬â¢s Second Law. The acceleration of frictionless systems due to gravity was compared for each object. The equipment used in this lab include a string, an air table
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