Circular Motions Go to http://phet.colorado.edu/simulations/sims.php?sim=Ladybug_Motion_2D and click on Run Now. Directions: 1. A Labybug was crawling in a circle around a flower like in the picture below. a. Sketch what you think the velocity and acceleration vectors would look like. b. If the flower is the “zero” position‚ what would the position vector look like? c. Use Ladybug Motion 2D to check your ideas. Make corrections
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AN INVESTIGATION OF PROJECTILE MOTION Designing a Projectile Launcher: An Investigation Of Projectile Motion Mark Clubine KitchenerWaterloo Collegiate Institute and Vocational School 1 AN INVESTIGATION OF PROJECTILE MOTION 2 Introduction Projectile motion is a form of motion where an object (called a projectile) is thrown near the earth’s surface‚ following a parabolic path being influenced only by gravity (Science Clarified
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gears or parts of a system. Their mechanics are similar to the wheel and axle. | Clock‚ Wheels of a A clock is run by wheels. Each wheel turns another to keep the clock running.... | | Cog-wheel "A small projection in machinery‚ used to impart motion. C. wheel‚ a wheel having cogs on its circumfrence." — Williams‚ 1889... | | Crown-wheel A wheel with cogs or teeth at right angles to its plane.... | | Drill‚ twist bit Twist drill bit.... | | Epicycloidal Teeth "Epicycloidal teeth‚ teeth
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Engineers: Statics Contents Introduction Rectilinear Motion: Position‚ Velocity & Acceleration Determination of the Motion of a Particle Sample Problem 11.2 Sample Problem 11.3 Uniform Rectilinear-Motion Uniformly Accelerated RectilinearMotion Motion of Several Particles: Relative Motion Sample Problem 11.4 Motion of Several Particles: Dependent Motion Sample Problem 11.5 Graphical Solution of RectilinearMotion Problems Other Graphical Methods Curvilinear Motion: Position‚ Velocity & Acceleration Derivatives
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TITLE To investigate the trajectory of a small ball as it rolls off a surface which is inclined to the horizontal. OBJECTIVE To investigate the trajectory of a two dimensional motion APPARATUS & MATERIALS Ramp Wooden block Pendulum bob Plumb line Steel ball Wooden board Carbon paper Meter rule Plasticine SETUP 1. A ramp has been set up at the edge of a bench as shown in the Figure 4-1. 2. Suspend a plum-line from the edge of the bench as shown in Figure 4-2. 3. Mount
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between the two lines is that one line is at a faster speed than the other in the same amount of time. While one is steeper the other one is not as steep. 2. How would the graph change if you walked toward the Motion Detector rather than away from it? Test your answer using the Motion Detector. Since the graph is going in a positive direction‚ the guess would be‚ that the graph would start from the top instead of the bottom‚ and would go downward causing the direction to become negative.
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Translational motion Translational motion is the aspect in which a body moves from a specific point to the next. This can be in terms of objects‚ molecules or atoms. This kind of motion normally takes place in a straight line for instance bullet which is fired by a gun. The object in motion does not change by turning on its axis for it travels in a straight line. Any slight change or rotation can cause the object to change direction in general making it not move toward the specified direction.
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circle) were used to describe anomalies such as the retrograde motion of planets. Equants (a point which the centre of a planet’s epicycle moved at a uniform velocity) were used to approximate where planets would be at a certain time. Even though the Ptolemaic model had various defects‚ as astronomers assumed that all the planets revolved at a uniform rate‚ planets revolved in perfect circles‚ and didn’t explain the retrograde motion of planets that it was formulated to do; it was still widely accepted
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FORCE AND MOTION Scalars vs. Vectors Scalars | Vectors | A scalar quantity has only magnitude. | A vector quantity has both magnitude and direction. | Scalars can be added‚ subtracted‚ multiplied and divided just as ordinary numbers‚ i.e.‚ scalars are subjected to simple arithmetic operations. | Vectors cannot be added‚ subtracted and multiplied following simple arithmetic laws. Arithmetic division of vectors is not possible at all. | Example: mass‚ volume‚ time‚ distance‚ speed‚ work‚ temperature
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was taking the precautionary measure in getting a flu shot. People should be lining up to get their vaccinations in order to prevent them from them getting sick and missing school‚ work or important events; but they aren’t‚ at Walgreens‚ we give maybe about 4 flu shots a day‚ and my pharmacy is pretty busy. On average we fill 350 each day‚ but on busy days such as Mondays we usually fill about 450. Today I am going to persuade you to get a flu shot by telling you history of the flu‚ facts about the
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