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Simple Pendulum | Science Experiment
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- čas přidán 8. 10. 2020
- Simple Pendulum | Science Experiment
A simple pendulum consists of a metallic ball (called bob) hung by a perfectly inextensible and weightless string.
When a bob is at rest position in a straight line, it is in its mean position.
When the bob is displaced from its mean position and then released, it makes to and fro movement about its mean position.
If the pendulum moves from one extreme position to the other and back to the first it is said to have performed one oscillation.
Time Period :- The time period of the simple pendulum is defined as the time required by the pendulum to complete one oscillation.
Frequency :- The frequency of the simple pendulum is defined as the number of oscillations performed per unit time.
The length of a simple pendulum is the length from the point of suspension to the centre of the ball.
Let us perform an experiment to observe that the time period varies with the length of the pendulum.
1. Suspend the bob by a perfectly in extensible and weightless string.
2. Measure the length of the string (L) from the point of suspension and the centre of the bob.
3. Gently pull the bob pendulum from one extreme end in such a way that it moves from one extreme position to the other and back to the first .(one complete oscillation)
4. Take a stopwatch and record the time a pendulum takes to complete 10 oscillations.
5. Time period of simple pendulum will be time taken to complete 10 oscillations divided by number of oscillations.
6. Repeat the process with different length of pendulum.
7. Plot the graph with time (T) on x-axis and length (L) on y-axis.
8. You will get a curve graph.
9. From this graph we infer that time period varies with the length of the pendulum.
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How do Mechanical engineers calculate the formula of T = the time when the pendulum has practically STOPPED oscillating? accounting all the forces of Air resistance, drag, attachment friction etc...etc. Thank You.
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its always good to see ur comment
An oscillator is a device that exhibits motion around an equilibrium point. In a pendulum clock, there is a change from potential energy to kinetic energy with each swing.
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Is a pendulum oscillation is similar to breathing,eyeball movement
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VERY VERY USEFUL FOR SCIENCE TEACHERS
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isn't "time in sec" (time period) the dependent variable and length in cm independent variable. so why not plot "time in sec" in Y-axis and "length in cm" in X-axis?
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The best explanation so far
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PLEASE MAKE VIDEO ON MULTIPLE REFLECTION AND MULTIPLE IMAGES
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What is oscillation
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IT HEPED ME VERY MUCH FOR MY PHYSICS PROJECT. THANK YOU FOR THIS VIDEO 🙏🙏
Great it helped...pls keep watching
Bob is hitting the stand....
How to make
I done this but....idk why but the value of g was 7.61 even after doing it after 10 times
My stopclock messed up my reading
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how to create 24 hours and 45 minutes?
like for example on mars planet
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