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m10 M11 title 158
Course: PHY 158, Spring 2008School: SUNY Buffalo
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Laboratory Physics Report PHY 158 M10/M11 Rotational Dynamics I, II ______________________________ This section is completed by the student Student Name: _________________________________________ Partner's Name(s): _______________________________________ Date: __________________ TA name: ______________________________ _______________________________ This is section completed by the TA: M10 section V-6(50) Table...
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Laboratory Physics Report PHY 158
M10/M11 Rotational Dynamics I, II
______________________________
This section is completed by the student Student Name: _________________________________________ Partner's Name(s): _______________________________________ Date: __________________ TA name: ______________________________
_______________________________
This is section completed by the TA: M10 section V-6(50) Table (10): _________________ Plot (10): _________________ Calculation of Slope , , I, C, and T (30):______________ M11 sectionsV-3 and V4 (4X10 points per mass = 40) :_______________ Question M11/VII-7(10):______________________________ Report Grade:_________________ TA Signature: __________________
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SUNY Buffalo - PHY - 158
EC1 Electric Circuits (Ohm's Law)In this lab you will accomplish the following tasks1. Measure the resistance R of a resistor 2. Measure the resistance R of resistors connected in series 3. Measure the resistance R of resistors connected in paralle
SUNY Buffalo - PHY - 158
EC3 RC circuitsIn this lab you will accomplish the following tasks: 1. Study the discharging of a capacitor through a resistor 2. Study the charging of a capacitor through a resistor 3. Study capacitors connected in series 4. Study capacitors connec
SUNY Buffalo - PHY - 158
EC4 Wheatstone BridgeIn this lab you will accomplish the following tasks: 1. Become familiar with the use of the Wheatstone bridge 2. Use the DC Wheatstone bridge to measure a resistance 3. Use the AC Wheatstone bridge to measure a resistance 4. Use
SUNY Buffalo - PHY - 158
ES1/ES2 ElectrostaticselectrometerV+qC -qIn this lab you will explore several aspects of electrostatics such as charging by induction, distribution of charges on conductors etc. The basic tool for measuring charges is the electrometer which
SUNY Buffalo - PHY - 158
EXPERIMENT M0Error Analysis(page 1)In this lab you will accomplish the following tasks: Measure the periodTof a simple pendulum 10 timesCalculate the average valueTof the pendulum periodCalculate the standard deviation Measure the el
SUNY Buffalo - PHY - 158
M2 Free FallIn this lab you will accomplish the following tasks:1. Verify the kinematics equation for free fall.gt 2 d= 22. Determine the acceleration of gravity gpage 1Section IVB 1 For a particular height d above the floor you will measur
SUNY Buffalo - PHY - 158
M4 Projectile Motion (PHY 158)(page 1)In this lab you will study projectile motion of an object of mass m moving in two dimensions under the influence of gravityx-axis: ax = 0yThe velocity v x is constantvo h x E d Dvx = vo cos o ,x =
SUNY Buffalo - PHY - 158
M10/11 (PHY 158) Rotational Dynamics I, IIIn this lab you will accomplish the following tasks: 1. Become acquainted with the PASCO rotational dynamics apparatus and the use of the dedicated Apple computer for data acquisition and display 2. Measure
SUNY Buffalo - PHY - 158
Use of the Apple computer software for M10 and M11Below we give a short tutorial that describes the use of the Apple software for the rotational mechanics experiments (M10 and M11) A. Record values of rotational frequency f of the steel or aluminun
SUNY Buffalo - PHY - 158
Physics Laboratory Report PHY 158EC1 Electric Circuits 1 (Ohm's law)_This section is completed by the student Student Name: _ Partner's Name(s): __ Date: _ TA name: __This section is completed by the TA: VI-1 (20) :_ VI-2 (40): Analysis of res
SUNY Buffalo - PHY - 158
Physics Laboratory Report PHY 158EC3 RC-Circuits_This section is completed by the student Student Name: _ Partner's Name(s): _ Date: __ TA name: __This section is completed by the TA: VI-2 VI-2 VI-4 VI-5 VI-6 VI-7 Analysis of data from V1: (15
SUNY Buffalo - PHY - 158
In problem VII-2 the question should read: Show that the relative error minimum when L1 = 50 cm RXRXis
SUNY Buffalo - PHY - 158
Physics Laboratory Report PHY 158EC4 Wheatstone Bridge_This section is completed by the student Student Name: _ Partner's Name(s): _ Date: __ TA name: __This section is completed by the TA: VI-1 (30) :_ VI-2 (25): _ VI-3 (20): _ VII-1 (10):_ V
SUNY Buffalo - PHY - 158
The electrometer voltage Vele is equal to FVdvm . Vdvm is the reading of the digital voltmeter connected to the electrometer. F is a multiplicative factor that depends on the electrometer scale. The values of the factor F are given in the table below
SUNY Buffalo - PHY - 158
EXPERIMENT M0, PHY 158 Error AnalysisI. Objectives: i. Become acquainted with the notion of the average value and the standard measurements of a parameter (period T of a simple pendulum) deviation of a series ofii. iii. iv.Measure the elongatio
SUNY Buffalo - PHY - 158
Instructions for the preparation of lab reports1. Make sure that for each report you include a title page with the following information: - Experiment title and date - Your name , your person number, and your lab partner's name - Your TA' name Fail
SUNY Buffalo - PHY - 158
Lab Schedule for PHY 158, Fall 2004DATES 8/30 9/3 9/7 9/13 9/14 9/20 9/21 9/27 9/28 10/4 10/5 10/11 10/12 10/18 10/19 10/25 10/26 11/1 11/2 11/8 11/9 11/15 11/16 11/22 11/23 11/29 11/30 12/6 12/7 12/10 12/13 12/20EXPERIMENT No Lab
SUNY Buffalo - PHY - 158
DATA TABLES FOR M0 (Error Analysis) V(a) # 1 2 3 4 5 6 7 8 9 10 5T(s) ' = _ T(s) = _V(b) # 1 2 3 4 5 6 7 8 9 10 11 12 13x1 = _ m(gm) 40 60 80 100 120 140 160 200 220 240 260 280 300 x2 x = x2 x1
SUNY Buffalo - PHY - 158
DATA TABLES FOR M2 (Free Fall)IVB1.Smaller ball d = _m , tav = _s , tav2 = _s2First drop # t(s) 1 2 3 4 5Second drop # t(s) 1 2 3 4 5d = _m ,tav = _s ,tav2 = _s2Third drop: # t(s) 1 2 3 4 5d = _m ,tav = _s ,tav2 = _s21Fourth
Occidental - MATH - 114
SUNY Buffalo - PHY - 158
M4 Projectile Motion Measurement of the angle between the initial velocity vo of the projectile and the horizontal. 1. Place the plumb line at the end of the rail 2. Place the protractor on the rail as shown in the figure with the center of the prot
SUNY Buffalo - PHY - 158
Last 5 digits HW Ch 21-27 Quiz 1 Quiz 2 Quiz 3 HW+Quiz Average of Person # Out of 100 of 100 01839 86.27 50 0 25 67.89 01850 46.29 100 50 50 52.40 01893 71.04 75 0 100 67.23 01894 83.00 50 50 50 73.10 03024 98.51 75 0 75 83.95 03638 82.97 25 25 0 63.
SUNY Buffalo - PHY - 102
SUNY Buffalo - PHY - 102
SUNY Buffalo - PHY - 102
SUNY Buffalo - PHY - 102
SUNY Buffalo - PHY - 102
SUNY Buffalo - PHY - 102
Chapter 15Electric Forces and Electric FieldsQuick Quizzes1. (b). Object A must have a net charge because two neutral objects do not attract each other. Since object A is attracted to positively-charged object B, the net charge on A must be negat
SUNY Buffalo - PHY - 102
Chapter 16Electrical Energy and CapacitanceQuick Quizzes1. (b). The field exerts a force on the electron, causing it to accelerate in the direction opposite to that of the field. In this process, electrical potential energy is converted into kine
SUNY Buffalo - PHY - 102
Chapter 17Current and ResistanceQuick Quizzes1. (d). Negative charges moving in one direction are equivalent to positive charges moving in the opposite direction. Thus, I a , I b , I c , and I d are equivalent to the movement of 5, 3, 4, and 2 ch
SUNY Buffalo - PHY - 102
Chapter 18Direct-Current CircuitsQuick Quizzes1. (a), (d). Bulb R 1 becomes brighter. Connecting a wire from b to c provides a nearly zero resistance path from b to c and decreases the total resistance of the circuit from R 1 + R 2 to just R 1. I
SUNY Buffalo - PHY - 102
Chapter 19MagnetismQuick Quizzes1. (b). The force that a magnetic field exerts on a charged particle moving through it is given by F = qvB sin = qvB , where B is the component of the field perpendicular to the particle's velocity. Since the part
SUNY Buffalo - PHY - 102
Chapter 20Induced Voltages and InductanceQuick Quizzes1.b, c, a. At each instant, the magnitude of the induced emf is proportional to the rate of change of the magnetic field (hence, proportional to the slope of the curve shown on the graph).2
SUNY Buffalo - PHY - 102
Chapter 21Alternating Current Circuits and Electromagnetic WavesQuick Quizzes1. (a), (c). The average power is proportional to the rms current which is non- zero even though the average current is zero. (a) is only valid for an open circuit, for
SUNY Buffalo - PHY - 102
Chapter 22Reflection and Refraction of LightQuick Quizzes1. (a). In part (a), you can see clear reflections of the headlights and the lights on the top of the truck. The reflection is specular. In part (b), although bright areas appear on the roa
SUNY Buffalo - PHY - 102
Chapter 23Mirrors and LensesQuick Quizzes1. At C.2. 3.(c). Since n water > n air , the virtual image of the fish formed by refraction at the flat water surface is closer to the surface than is the fish. See Equation 23.9. (a)False. A concave
SUNY Buffalo - PHY - 102
Chapter 24Wave OpticsQuick Quizzes1. 2. (c). The fringes on the screen are equally spaced only at small angles where tan sin is a valid approximation. (b). The space between successive bright fringes is proportional to the wavelength of the li
SUNY Buffalo - PHY - 102
Chapter 25Optical InstrumentsQuick Quizzes1. (c). The corrective lens for a farsighted eye is a converging lens, while that for a nearsighted eye is a diverging lens. Since a converging lens is required to form a real image of the Sun on the pape
SUNY Buffalo - PHY - 102
Chapter 26RelativityQuick Quizzes1. (a). Less time will have passed for you in your frame of reference than for your employer back on Earth. Thus, to maximize your paycheck, you should choose to have your pay calculated according to the elapsed t
SUNY Buffalo - PHY - 102
Chapter 27Quantum PhysicsQuick Quizzes1. (b). Some energy is transferred to the electron in the scattering process. Therefore, the scattered photon must have less energy (and hence, lower frequency) than the incident photon. (c). Conservation of
SUNY Buffalo - PHY - 102
Chapter 28Atomic PhysicsQuick Quizzes1. (b). The allowed energy levels in a one-electron atom may be expressed as En = - Z 2 ( 13.6 eV ) n 2 , where Z is the atomic number. Thus, the ground state ( n = 1 level ) in helium, with Z = 2 , is lower t
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
Occidental - MATH - 114
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