sketching distance vs. time and velocity vs. time kinematics graphs PROCEDURE: 1. Begin by making charts like the one below for each of the following a-d My Prediction / Actual Graph a. The man walks slowly to the house from the origin. Position –Time Graph Explanation for graph’s appearance –after actually performing the activity. As the man walks at a constant slow rate to the house‚ his direction is positive which is depicted on the graph. ______________________ Velocity-Time Graph Explanation for
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was to analyze the motion of a student walking along a straight line in front of the motion detector moving back and forward with different speed trying to match the graph provided. To also understand and interpret graphs of distance vs time and velocity vs time. To also know what the slopes of the each graph represent which tells how far the student travelled‚ the speed and whether the motion of the student is accelerating or decelerating. THEORY: The particle position X is the with respect
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temperature‚ angle‚ area‚ speed‚ distance‚ volume and density are examples of scalar quantities. * Vector Quantities: Quantities that require both magnitudes and direction to specify them are called vector quantities or vectors. Displacement‚ velocity‚ force‚ momentum‚ weight etc. are the examples of vectors. Q5: A farmer moves along the boundary of a square field of side 10 m in 40 s. What will be the magnitude of displacement of the farmer at the end of 2 minutes 20 seconds? Answer: As
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positioned underneath a table recorded the golf ball’s pattern of motion‚ when dropped. The main objective of performing this experiment is to measure the velocity and position of the ball to eventually find the acceleration of free fall. A computer program called‚ DataStudio‚ was used to create a graph of position vs. time and a graph of velocity vs. time. The second part of the experiment involved randomly dropping a ruler and having your partner catch it to determine reaction time. Questions
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KINEMATICS IN ONE DIMENSION chapter Section 2.1 Displacement Section 2.2 Speed and Velocity 1. A particle travels along a curved path between two points P and Q as shown. The displacement of the particle does not depend on- Q (a) The location of Q. (b) The location of P. (c) The direction of Q from P. P (d) The distance traveled from P to Q. Ans. (d) 2. For which one of the following situations will the path length
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each cable. -3- Problem (3) The motion of an oscillating flywheel is defined by the relation: 0 e7 t / 6 sin 4 t‚ where θ is expressed in radians and t in seconds. Knowing that θo= 0.4 rad‚ determine‚ the angular coordinate‚ the angular velocity‚ and the angular acceleration of the flywheel when; (a) t = 0.125 s‚ (b) t = ∞. -4- Problem (4) When the power to an electric motor is turned on the motor reaches its rated speed of 2400 rpm in 4 s‚ and when the power is turned off the motor coasts
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cart with a spring. A stiff spring will be used. We will collect the information through two items. We will use distance and time as information collectors. This will measure the acceleration‚ velocity‚ and position of the cart as it moves down the track. The most important measurement collected is the velocity; which will be used to calculate the momentum. We will also explore how mass impacts in the change of momentum‚ and if there can be a non-changing impulse between the two carts with different
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equal to one meter‚ so my calculations would be easy to get. I knew my acceleration for Y was -9.8‚ the velocity initial for Y was zero‚ and the time it will take for the ice cream to reach zero is .452. For X I know that time is also .452‚ and that the acceleration is zero. To get started I decided the vertical distance‚ and then I calculated the time‚ using the time I figured out the initial velocity‚ and then I used this to figure out the distance the cone would go in the X direction. Then using the
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successful students identify these points early in their Class XI and race ahead of rest of the competition. We suggest that you start as soon as possible. In this booklet we have made a sincere attempt to bring your focus to Class XI and keep your velocity of preparations to the maximum. The formulae will help you revise your chapters in a very quick time and the motivational quotes will help you move in the right direction. Hope you’ll benefit from this book and all the best for your examinations
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Acceleration Velocity Displacement Distance Time Definition 1. Acceleration is the rate of change of velocity with time. Velocity is a vector physical quantity; both magnitude and direction are required to define it. the length of an imaginary straight path‚ typically distinct from the path actually travelled by P. Distance is a numerical description of how far apart objects are. In physics or everyday usage‚ distance may refer to a physical length‚ or an estimation Time in physics is
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