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
Physics 344: Modern Physics University of Wisconsin - Whitewater Spring 2014 Syllabus Department of Physics Instructor: Jalal M. Nawash Office: UH 161. Phone: 472-5116. E-mail: nawashj@uww.edu Office Hours: Monday‚ Friday: 8:30 – 9:30. Monday 2:00 – 4:00‚ Thursday: 1:00 – 2:00 Prerequisites: PHYSCS 181 or PHYSCS 141 and MATH 254. Class location: Upham 141 Class time: 9:55 – 10:45 Monday‚ Wednesday
Premium Quantum mechanics
Purpose: The purpose of this lab is to investigate the reliability of the activity series of metals by testing in solution‚ confirming if the activity series was correct with its predictions. Hypothesis: It is predicted that the metals in solid form will displace metals in solution if located higher over the other within the activity series chart. Materials: 10 test tubes Test tube holder Metals in Solid Form 1. Aluminum 2. Iron 3. Zinc 4. Magnesium 5. Zinc 6. Aluminum 7. Copper
Premium Metal Aluminium Copper
AS Level Physics: Terms & Definitions:- Measurement Random errors are errors of measurements that result in a scatter of readings about a mean value. Systematic errors are errors of measurement which occur according to some fixed patterns such that they consistently give out an over-estimation or under-estimation of the true value. Accuracy is a measure of how close the results of an experiment agree with the true value. Precision is a measure of how close the results of an experiment
Premium Potential energy Energy Magnetic field
10log(1012Ι) vsound = 331 + .6T(0C) f = f0(v±v0)/(v±vs) f1 = v/2L λ1 = 2L fn = nf1 λn = λ1/n n = 1‚ 2‚ 3‚ ….. f1 = v/4L λ1 = 4L fn = nf1 λn = λ1/n n = 1‚ 3‚ 5‚ …. fB = │f1 – f2│ sinθ = vsound / vobject Electrostatics F = QE F = kQ1Q2/r2 E = kQ/r2 ΔPE = QΔV PE = kQ1Q2/r V = kQ/r ΔV = EΔx C= Q/V C = ε0A/d C = κC0 E = Q/(ε0A) U = ½QV = ½CV2 =½Q2/C u= ½ε0E2
Premium
Name __________________________________ Electric Fields Go to HYPERLINK "http://phet.colorado.edu/simulations/sims.php?sim=Electric_Field_Hockey" http://phet.colorado.edu/simulations/sims.php?sim=Electric_Field_Hockey and click on Run Now. 1. You rub balloons in your hair and then hang them like in the picture below. Explain why you think they move apart and what might affect how far apart they get. When the balloons are rubbing together they are taking charges(electrons ) from
Premium Electric charge
To determine the heating and cooling curve of water Design: What we are going to do is investigate the phase changes and what the heating curve of water is. We are going to do this is by heating up 100ml of water on a Bunsen burner then adding ice cubes. Use a thermometer to measure the temperature every 30 seconds until it reaches a plateau. Hypothesis: As more time passes‚ the temperature of the water increases. Independent variable: Time Dependent variable: Changing water temperature
Premium Phase Heat Fahrenheit
6. Applications * Is it possible to add heat to a body without changing its temperature? Yes. It is possible to add energy to a body (in the form of heat) and not raise its temperature by causing a phase change. When you heat ice it takes energy to convert it from ice to water‚ but does not change the temperature of the body until it is all converted. The principle behind this is what we call latent heat. It refers to the energy (or heat) required to change the state of a substance without changing
Premium Thermodynamics Heat Energy
PHYSICS OF THE PAST One hundred years ago‚ in a poky apartment in Bern‚ Switzerland‚ Albert Einstein‚ then just a 26-year-old patent office clerk still working part-time towards his PhD‚ published five ground breaking scientific papers. Each of these papers‚ written during Einstein’s annus mirabilis ‚ has become a "classic" in the history of science: On a Heuristic Viewpoint Concerning the Production and Transformation of Light ‚ which discusses optical photons and photoelectric effects. Molecular
Premium Physics Quantum mechanics General relativity
The Jewish Scripture starts right at the beginning of time itself‚ where God created the universe‚ and only then did he create the earth (Genesis 1). Right from the beginning God has had an intimate connection between God and the world‚ and this connection is believed to continue throughout time. From the moment god created humanity (Gen. 1:26)‚ we were created for the one purpose to protect the earth. But it is in the story of Noah that we perhaps truly learn about the role that God had created
Premium Universe Torah Judaism