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In the simple harmonic motion experiment; the equation neglects both gravity and air resistance. Furthermore, depending on your method of obtaining the spring constant (k); the measurements will most likely not be accurate if the method in the lab manual is used. A meter stick is inefficient to measure in mm by simply holding it straight up.
To slow down a swinging clock pendulum, one must make it longer. In mechanical clocks, the majority of the mass of the pendulum is contained in the "bob" (a disk or weight) usually at the bottom of the pendulum. If you lower the pendulum bob, the pendulum is lengthened and the pendulum runs slower. This is usually done by turning a nut on a threaded portion of the pendulum just below the bob. Make sure the bob drops as you lower the nut or nothing will change. To raise the rate of the pendulum (make it run faster), you just turn the nut the opposite way.
Only an external FORCE acting on the Pendulum could realistically restart the clockworks.
it could be ethier or depeding on the experiment
You could use a piece of string and a paper clip.
It depends on the experiment... but the possible constants for such an experiment could be...The mass of the weight at the end of the string (which is independent from the SHM)The length of the stringThe height of the weight when released (not necessarily)Then given that you don't need to put on would be the gravitational force of acceleration 9.81 ms-2, etc.
Could you please rephrase your question? i know about the pendulum worksheet but i would like to know what grade level and i could help you. thanks!
It depends on the experiment... but the possible constants for such an experiment could be...The mass of the weight at the end of the string (which is independent from the SHM)The length of the stringThe height of the weight when released (not necessarily)Then given that you don't need to put on would be the gravitational force of acceleration 9.81 ms-2, etc.
In the simple harmonic motion experiment; the equation neglects both gravity and air resistance. Furthermore, depending on your method of obtaining the spring constant (k); the measurements will most likely not be accurate if the method in the lab manual is used. A meter stick is inefficient to measure in mm by simply holding it straight up.
the person who created the pendulum was galieo galie
You should approach a firework that has been lit but not gone off with precaution, as it could explode at any moment.
You could, for example, use it as a pendulum.You could, for example, use it as a pendulum.You could, for example, use it as a pendulum.You could, for example, use it as a pendulum.
You could use a stopwatch.
To slow down a swinging clock pendulum, one must make it longer. In mechanical clocks, the majority of the mass of the pendulum is contained in the "bob" (a disk or weight) usually at the bottom of the pendulum. If you lower the pendulum bob, the pendulum is lengthened and the pendulum runs slower. This is usually done by turning a nut on a threaded portion of the pendulum just below the bob. Make sure the bob drops as you lower the nut or nothing will change. To raise the rate of the pendulum (make it run faster), you just turn the nut the opposite way.
Gravity doesn't make a pendulum stop. Air resistance and friction in the pivot are the things that rob its energy. If you could eliminate those and leave it all up to gravity, the pendulum would never stop.
- a swinging pendulum - an oscillating spring
Only an external FORCE acting on the Pendulum could realistically restart the clockworks.