UIC PHYSICS 105 Spring 2013 Practice Exam 1 UIC Physics 105 Midterm Practice Exam 1 Spring 2013 Best if used by February 17 PROBLEM Multiple Choice Short Problem 1 Short Problem 2 Short Problem 3 Short Problem 4 Short Problem 5 Short Problem 6 Total POINTS 40 10 10 10 10 10 10 100 SCORE Page 1 of 11 UIC PHYSICS 105 Spring 2013 Practice Exam 1 MULTIPLE CHOICE QUESTIONS (2 points each) Clearly circle the letter of the best answer MCQ 1: The figure to the right represents
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Newton’s Laws of Motions Scrapbook Basic Physics Honors Newton’s 1st Law of Motion An object stays in constant velocity until and unbalanced force is exerted upon it. [pic] ~The water of the waterfall will keep falling due to gravity. ~The papers on the wall stay at rest until wind blows at it. [pic] [pic] ~The trophy on the table stays at rest until it is taken. [pic] ~The cup on the table stays at rest until
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PROJECTILE MOTION AND BASKET BALL By: Fieda Rizkiana 09/X11 SENIOR HIGH SCHOOL 2 KEDIRI 2013 ACKNOWLEDGEMENT The writer expresses her gratitude to Allah SWT for blessing‚ love‚ opportunity‚ health and mercy to complete this assignment entitled “PROJECTILE MOTION AND BASKET BALL” to complete final task of Physics in 2nd semester. To complete this assignment‚ the writer knows that without other people’s help and support she will never be able to finish it. Therefore‚ writer would like
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Look Think Motion can be described using graphs. Graphs and charts are common tools used in science. To interpret graphs‚ read the axis labels as well as the numbers on the axis. The title should give you some clue as to the purpose of the graph. Next‚ examine the content. Try to describe the content in words‚ using “As ____(quantity on the x axis)‚ ____(type of change‚ such as increases or decreases)‚ ____ (quantity on the y axis) ___(type of change such as increases
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Mariel EXPERIMENT No. 2 The Simple Pendulum Abstract A simple pendulum is one which can be considered to be a point mass suspended from a string or rod of negligible mass and allowing it to sway back and forth in a place. The objective of this experiment is to observe the motion of a simple pendulum‚ study simple harmonic motion‚ determine some factors that affect the period of a pendulum‚ and measure the value of acceleration due to gravity by use of a simple pendulum. The materials used were
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Projectile Motion Lab Report Objectives: This laboratory experiment presents the opportunity to study motion in two dimensions‚ projectile motion‚ which can be described as accelerated motion in the vertical direction and uniform motion in the horizontal direction. Procedures and Apparatus: |Rubber Ball |White sheets of papers | |Metal Track |Water | |Books |Table | |Meter-stick
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Abstract The glass transition temperature of polymethylmethacrylate ( PMMA‚ Perspex) is measured using static and dynamic method while the glass transition temperature of rubber of different size is measured using only dynamic method. The glass transition temperature Tg of Perspex is found to be 90°C using the static method and 160°c using the dynamic method. On the other hand‚ the Tg of rubber is found to be -30°C. Introduction Perspex is a type of amorphous polymer and has the following
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Experiment No. 4 Experiment Title: Motion in One Dimension: Free Fall I. Objective To measure the acceleration of falling object II. Set - up III. Materials Quantity Item 1 V-shaped stand base 1 50 cm metal stand rod 1 Clamp 1 Ruler 1 Stopwatch 1 Ballistic Ball IV. Procedures 1. Set up the V-shaped the stand base‚ 50 cm metal stand rod and the clamp. 2. Measure the clamp’s height and move it to the required measurement. 3. Assign a timer to record the time. 4
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DCP CE lab report for thermal physics Jeff Raw data collection: temperature (K)±1K | length (cm)±0.05cm | diameter(cm) ±0.05cm | volume(cm^3) | uncertainty for volume | 342 | 7.3 | 0.28 | 0.449271 | 0.163531 | 338 | 7.0 | 0.28 | 0.430808 | 0.156937 | 336 | 6.7 | 0.28 | 0.412345 | 0.150343 | 334 | 6.3 | 0.28 | 0.387727 | 0.141551 | 331 | 6.1 | 0.28 | 0.375418 | 0.137155 | 329 | 5.9 | 0.28 | 0.36311 | 0.132759 | 326 | 5.5 | 0.28 | 0.338492 | 0.123967 | 325 | 5.4 |
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hill. Determine the initial horizontal velocity of the soccer ball. Problem Type 2: A projectile is launched at an angle to the horizontal and rises upwards to a peak while moving horizontally. Upon reaching the peak‚ the projectile falls with a motion that is symmetrical to its path upwards to the peak. Predictable unknowns include the time of flight‚ the horizontal range‚ and the height of the projectile when it is at its peak. Examples of this type of problem are a. A football is kicked
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