Question 9 The calculated velocity v(m/s) for S/N (13) is equal to. Question 8 The distance x(m) traveled, corresponding to S/N (13) is equivalent to. Question 7 The calculated change in distance Ax (m) from the S/N (6) in the table is equivalent to. Question 6 The calculated change in velocity (m/s) from the S/N (4) in the table is equivalent to. Question 5 The calculated velocity(m/s) from the S/N (6) in the table is equivalent to. Question 4 The calculated acceleration (m/s2) from the S/N (6) in the table is equal to. Question 3 The calculated standard deviation for the measured distance x(m) during the experiment is equivalent to O a. Question 2 The calculated uncertainty for the time t (s) during the experiment is equivalent to. Use statistical experimental analysis to calculate Mean, Standard Deviation & Uncertainty. Complete the table above in excel sheet and answer the questions on the blackboard.
#EXPERIMENT 8 GRAPHICAL ANALYSIS OF MOTION FOR FREE#
we can write similar equation for free fall where x is replaced by y and a is replaced by -g. It is one dimensional motion along vertical direction (along y-axis). v^2=v0^2 + 2 a (x-x0) where, x0 = initial position x = final position v0 = initial velocity, v = final velocity a = acceleration, t = time taken Free Fall: Motion under the action of gravity is called Free fall.
The motion is along horizontal direction (along x-axis) 1. al = Avl/Atl=0.41/0.1= 4.1 m/s^2 Equations of Motion: (constant acceleration): It is a relation between the kinematic variables x, v, a and t.
Below displayed the picture of the motion. This experiment was meant to define linear kinematics and graphical analysis. The experiment was went to track time and distance travelled as the load falls vertically due to gravity. The spark frequency was such that it sparks on the card board tap every 10 cycle pers second. SPARK TRACK ON A RACE TRACK A load was attached on a spark track or air track. The purpose of this experiment is (i) to explore the various aspects of linear kinematics and (ii) to utilize graphical analysis to determine quantitative relationships between various quantities associated with linear kinematics. It allows one to discern the correct relationship between related quantities. Graphical analysis is also a useful tool in and of itself.
It is a useful tool in and of itself, allowing us to describe quantitatively any type of motion along a straight line (whether it be an automobile speeding down the highway or a balloon rising gently into sky). EXPERIMENT # 3 -LINEAR KINEMATICS & GRAPHICAL ANALYSIS Linear kinematics is the study of the motion along a straight line and involves such concepts as position, velocity and acceleration.
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