- #PASCO CAPSTONE SOFTWARE REVIEW WITHOUT QUICKTIME HOW TO#
- #PASCO CAPSTONE SOFTWARE REVIEW WITHOUT QUICKTIME TRIAL#
The expectation is that the change in potential energy will equal the change in kinetic energy, thus supporting the law of conservation of mechanical energy.
#PASCO CAPSTONE SOFTWARE REVIEW WITHOUT QUICKTIME TRIAL#
hanging The change in potential energy of the system was calculated as follows: E 0 J The percent difference values between the kinetic energy and the potential energy for each trial are shown below. The initial and final velocities in each trial were calculated using the measured time values as follows: 0 0 These values were then used to calculate the change in kinetic energy of the glider and the hanging mass, as follows: hanging These changes in kinetic energy of the components of the system were then added together to get the total change in kinetic energy of the system. To demonstrate the calculations, values from trial 1 will be used as an example. Analysis For this experiment, all calculations were done in an Excel spreadsheet. With these values, the kinetic energy of the glider, the kinetic energy of the hanging mass, the kinetic energy of the entire system, the potential energy of the hanging mass, and the percent error of the experimental values could be calculated. The computer program connected to the photogates gave values for time. The glider was then pushed and let the air track and hanging mass take the glider past the two photogates. The weights were applied to the end of the pulley (hanging mass) with the values that were stated in the lab manual. All of the above mentioned equipment, excluding the computer is seen in Figure 1 in the lab manual. Procedure The equipment used for this lab consisted of: a two meter horizontal air track, a glider, a pulley, two photogates, masses, an air blower, a Pasco 850 Universal Interface system, and a computer with Microsoft Excel and Pasco Capstone. In this instance, kinetic energy at a specific point was calculated subtracting the initial kinetic energy from the final kinetic energy ( The total kinetic energy is found adding the kinetic energy of the glider and the kinetic energy of the hanging mass hanging The total energy of an object is the summation of kinetic energy and potential energy. Kinetic energy is the product of 0, the mass of the object, and velocity squared. Potential energy is found multiplying the mass of an object acceleration due to and the height of the object from the ground ( E where and indicate final and initial position). The experiment conducted demonstrates the connection between kinetic and potential energy and to see that with a frictionless system, energy is to be conserved.
#PASCO CAPSTONE SOFTWARE REVIEW WITHOUT QUICKTIME HOW TO#
Preview text Physics 221 Section 009 Olugbenga Adeyemi Olunloyo Experiment Performed: 26 September 2017 Report Handed In: 10 October 2017 Conservation of Mechanical Energy Introduction This experiment was designed to study the law of conservation of mechanical energy in a system where gravitational potential energy is converted into kinetic energy, to teach how to apply the equations for kinetic and potential energy and to teach how to measure the parameters for determining kinetic and potential energy.