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Changing the charge strength, particle mass, and field strength gives results that agree with the equation derived. Increasing the charge strength, particle mass, and field strength one at a time resulted in a smaller radius while decreasing the charge strength, particle mass, and field strength one at a time resulted in a larger radius.
In this lab, we were simulating the motion of the charged particle. Cyclotron motion is an occurrence where a charged particle is moving in the magnetic field with velocity. It moves in a circle at the end. The charge strength, particle mass, and field strength could be changed. A similar experiment performed by J. J. Thomson in 1897 to measure the charge-to-mass ratio of the electron with incredible accuracy. In this experiment, a gas sample was introduced into the region existing between the charged plates and the flow of current was observed. Thompson was able to prove that the cathode rays were produced from the cathode as a stream of negatively charged particles called electrons. He was able to determine the charge-to-mass ratio of the electron.
The simulations done agree with the expected behavior of the particle. The particle moved in a circle at the end. Changing the mass, velocity, and charge of the particle affects the radius of the trajectory such that an increase will result in a reduction of the radius while a decrease in the values result into an increase in the radius. Changing the strength of the magnetic field affects the direction of motion of the particle and a reduction in the magnetic field could change the trajectory of the particle. Some notable sources of errors in this experiment could have been incurred in the determination of the parameters for the mass, velocity, and charge of the particle. Large changes are likely to result into large
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After collection, the data was loaded to computers for purposes of analysis using DataStudio software.
Every object fall with a similar gravitational acceleration assuming there is no air resistance. An object thrown downward or upward and one released from rest falls
From the results obtained from the data sheet the muzzle velocity is supposed to represent the initial velocity of the yellow plastic projectile. It is evident that the range depends on the initial velocity i.e. The higher the initial
enomenon can be explained from Newton’s second law of motion which states that the acceleration of a body as produced by a net force is directly proportional to the magnitude of the net force, and it occurs in the same direction as the net force and inversely proportional to
For symmetric objects the moment of inertia I am given by, where β = dimensionless fraction that lies between 0 and 1. For a rectangular block of dimensions, a × b × c has a moment of inertia for a rotation about an axis normal to a × b face and passing through the center of the object. The moment of inertia is affected by the distribution of mass.
Apart from a graph of charge on capacitor against time, another one for current against time was also plotted to current is affected by change on charge on capacitor. This could the give an immediate overview about the activities of a capacitor in a circuit.
and graphs were drawn and analyzed to find the dependence of maximum height reached by a body in projectile on initial velocity and angle of elevation.
According to the fundamental laws of physics, when a body if projected into the air, its trajectory motion in determined by
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