Article No: P6214000
Free fall can be observed everywhere in everyday life whenever objects fall to the ground. Historically, the development of the theory of gravitation is often associated with Isaac Newton. In the ideal case, the only force acting on a falling object in the Earth's gravitational field is its weight, causing it to accelerate uniformly. In reality, air resistance influences the motion. The larger the surface area and the lower the density of an object, the greater the braking effect. In this experiment, air resistance and buoyancy are neglected so that a uniformly accelerated motion can be investigated. Using the MotionBoard, the fall of a MotionDot is recorded in real time, making it possible to determine the acceleration due to gravity experimentally.TasksRelease a MotionDot using an electromagnet and let it fall along the MotionBoard.Record the position data in real time using the LABsense app.Analyze the velocity–time data.Determine the acceleration due to gravity from the curve.Repeat the experiment several times and calculate an average value.Compare the measured value with the reference value and discuss possible deviations.Learning objectiveLearners should first recognize that an object in free fall performs a uniformly accelerated motion. To achieve this, a MotionDot is dropped from different heights and its motion is recorded using the MotionBoard. Students should become familiar with the concepts of velocity, acceleration, potential energy, and kinetic energy. From the beginning of their study of mechanics, they should be able to analyze measurement data and experimentally determine the acceleration due to gravity.BenefitsPrecise digital recording of free fall in real time using the LABsense appDirect analysis of velocity–time dataExperimental determination of the acceleration due to gravityClear demonstration of uniformly accelerated motionIdeal for lower and upper secondary education
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