Modern Physics 1.1 CLASSICAL PHYSICS Newtons laws of motion are the basis of the most elementary principles of classical physics. Equations based on these laws are the simplest and they are suitable for solution of simple dynamical problems‚ such as the motion of macroscopic bodies‚ Lagranges equations‚ Hamiltons equations and Hamiltons principle are also fundamental principles of classical mechanics‚ because they are consistent with each other and with Newtons laws of motion. Lagranges
Premium Light Quantum mechanics Photon
The Physics Of Soccer Soccer is a sport that’s very challenging and during the course I’ve found physics can also be described as challenging. As far as I was concerned soccer and physics were both challenging and that was all they had in common‚ consequently upon researching them both this I found that I was wrong. For me this was nothing new because I’ve found that physics isn’t a subject that can be skimmed‚ but rather it has to be studied to the finest detail. Those small details if missed can
Premium Energy Force Electromagnetism
Introduction to Physic 1.1 Understanding Physics • A phenomenon is an occurrence that can be perceived by our senses • In physics‚ we study natural phenomena‚ such as the eruption of volcano‚ rain fall‚ formation of rainbow and the properties of matter‚ such as length‚ temperature‚ volume • There are many fields of study in physics‚ including force‚ motion‚ heat‚ light‚ waves‚ electricity‚ electromagnetism‚ electronics and nuclear physics 1.2 Physical Quantities • We discover physics by learning
Premium Measurement Units of measurement
to be biodegradable‚ while the microcystins were released at different stages with some variants shown to be more persistent. The release and biodegradation of the metabolites followed pseudofirst-order kinetics with rate constants comparable to experiments using laboratory-cultured Lionel Ho (corresponding author) Albane Barbero Jennifer Dreyfus Gayle Newcombe Australian Water Quality Centre‚ SA Water Corporation‚ 250 Victoria Square‚ Adelaide‚ SA 5000‚ Australia E-mail: lionel.ho@sawater
Premium Water treatment Cyanobacteria Water
CURTIN UNIVERSITY OF TECHNOLOGY DEPARTMENT OF APPLIED PHYSICS Physical Measurement 201 DRIVEN HARMONIC OSCILLATOR Abstract The purpose of this experiment is to investigate the various aspects of harmonic motion using a Driven Harmonic Motion Analyser (DHMA). The aspects that are investigated in this experiment is the spring constant k of two springs‚ the resonant frequency‚ the damping factor‚ and the relationship between phase and resonant frequency. The value of k of the first
Premium Simple harmonic motion Wave
Lab Report: Projectile MotionChange Launch Angle 03/05/2012 James Allison section 20362 Group 5 James Allison‚ Clint Rowe‚ & William Cochran Objective: In this lab we will compare different parameters of a launched projectile. This includes time of flight‚ initial velocity‚ initial vertical velocity‚ initial horizontal velocity‚ range‚ time of max height. All these data points are collected for 30°‚ 40°‚ 45°‚ 50°
Premium Range of a projectile Velocity Airport
basketball confrontation of focus. At present‚ the domestic and international factors affect the basketball shooting‚ mainly for heart‚ Management and technical action‚ and take full advantage of the principles of mechanics to study less. From the physics point of view‚ using principles of mechanics and impact analysis‚ The Hit Rate factors‚ in order to explore an effective way to improve the shooting‚ in order to improve the rational knowledge of the athletes on the shooting process‚ guidance basket
Premium Basketball
equation: v = λ f. However‚ it turns out that when light is reflected off a surface its speed stays the same. This was first proven by Sir Isaac Newton. Under the assumption of perfectly elastic collision‚ the laws of reflection follow from the laws of motion. To demonstrate‚ consider a particle traveling towards a flat frictionless surface whose horizontal and vertical velocity components are: VX and VY. When the particle is reflected from the surface there is no change in VX. The vertical velocity component
Premium Light Rainbow Refraction
Linear Least Squares Suppose we are given a set of data points {(xi ‚ fi )}‚ i = 1‚ . . . ‚ n. These could be measurements from an experiment or obtained simply by evaluating a function at some points. You have seen that we can interpolate these points‚ i.e.‚ either find a polynomial of degree ≤ (n − 1) which passes through all n points or we can use a continuous piecewise interpolant of the data which is usually a better approach. How‚ it might be the case that we know that these data points should
Premium Linear algebra Singular value decomposition
Objectives: • To be able to explain how the photoelectric effect experiment works and why a photon model of light is necessary to explain the results. • To study the effect of intensity of light on photoelectric experiment. • To estimate the Planck’s constant‚ h through the simulation. • To be determine how to calculate the wavelength of light‚ the work function of the metal‚ or the stopping potential‚ if given the other two. Beginning with the plate made of sodium. Keep all the parameters
Premium Light Electromagnetic radiation Electron