Through the use of numerical measure‚ the Motion Picture Industry can be analyzed more specifically. Descriptive statistics can assist analyst to measure data in terms of location‚ variability‚ association between two variables‚ as well as using data for exploratory analysis and the shape‚ relative location‚ and the identification of outliers. The data presented offers a look at four data sets including opening gross income‚ total gross income‚ number of theaters‚ and weeks in the top 60 movies
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Accident Detection System and Vehicle Overtaking System Using Wireless Technology By Sub n jadav [Type the author name] | Accident Detection System and Vehicle Overtaking System Using Wireless Technology * Introduction:- Accidents are one of the most dreaded situations in one`s life‚ on an average atleast one vehicular accident occur everyday around the world. It has also been observed that the most number of people die as they do not get to the hospital in
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3. PATH LOSS MODELS Path loss models play a vital role in planning of wireless communication systems. They represent a set of mathematical equations and algorithms that are used for radio signal propagation prediction in certain areas. Propagation path loss models are used for calculation of electromagnetic field strength for the purpose of wireless network planning during preliminary deployment. Path loss model describes the signal attenuation from transmitter to receiver antenna as a function of
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Lab {4} Free Fall Motion Abstract Within this laboratory students used a Macintosh computer‚ scientificwork interface‚ and photogate to measure the acceleration of gravity‚ g‚ in a free-fall experiment. Using a “picket fence” dropped through a photo gate with disregard for air resistance; students calculated the results from the charted data and compared it with the accepted value of 9.8 m/s2 discussing any variations and their
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Go to http://phet.colorado.edu/simulations/sims.php?sim=Motion_in_2D and click on Run Now. 1) Once the simulation opens‚ click on ‘Show Both’ for Velocity and Acceleration at the top of the page. Now click and drag the red ball around the screen. Make 3 observations about the blue and green arrows (also called vectors) as you drag the ball around. The vectors appear to have both direct and inverse relationships with each other. When I move the ball one direction‚ both of the vectors move the
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Linear Motion by Meredith Crook hide properties edit properties Document Type: Lesson Plan Standards PS.10 The student will investigate and understand scientific principles and technological applications of work‚ force‚ and motion. Key concepts include… a. Speed‚ velocity and acceleration Title: Linear Motion Main Concepts: force‚ velocity‚ speed‚ and acceleration Instructional Objective(s) UKDs: As a result of this lesson students will:
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ROTATIONAL MOTION CENTRE OF MASS AND ROTATIONAL MOTION INTRODUCTION- For describing the motion of rigid bodies‚ we shall introduce the key concept of ‘centre of mass’. This concept enables us to understand how we can apply justifiably the Newton’s laws of motion‚ in essentially the same form to objects of large size including even the astronomical objects like the planets and the stars. KINDS OF MOTION OF A RIGID BODY- A rigid body may have three kinds of motion- (1) Pure Translation Motion- in such
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Projectile Motion You have probably watched a ball roll off a table and strike the floor. What determines where it will land? Could you predict where it will land? In this experiment‚ you will roll a ball down a ramp and determine the ball’s velocity with a pair of Photogates. You will use this information and your knowledge of physics to predict where the ball will land when it hits the floor. [pic] Figure 1 objectives * MEASURE THE VELOCITY OF A BALL USING TWO PHOTOGATES AND
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is a hypothetical system of many tiny microelectromechanical systems (MEMS) such as sensors‚ robots‚ or other devices‚ that can detect light‚ temperature‚ vibration‚ magnetism or chemicals. These are usually networked wirelessly and are distributed over some area to perform tasks like sensing. Advances in hardware technology has enabled very compact‚ autonomous and mobile nodes each having one or more sensors‚ computation and communication capabilities ‚and a power supply. The Smart Dust project
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Experiment: Uniform circular motion and centripetal force Results Mass(kg) | Radius(m) | Velocity(m/s) | CentripetalForce[Calculation](kg. m/s2) | CentripetalForce[Measure](kg. m/s2) | StandardDerivation(%) | 0.02406 | 0.0900 | 2.023 | 1.094 | 0.7349 | 32.8 | 0.02406 | 0.0900 | 2.584 | 1.785 | 1.446 | 19.0 | 0.02406 | 0.0900 | 3.153 | 2.658 | 2.351 | 11.4 | 0.02406 | 0.0900 | 3.702 | 3.662 | 3.374 | 7.86 | 0.02406 | 0.0900 | 4.238 | 4.801 | 4.525 | 5.75 | Force versus Mass Mass(kg)
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