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Would be value of g be affected if the size of the Bob is varied in simple pendulum experiment?
No, the value of acceleration due to gravity (g) would not be affected by changing the size of the bob in a simple pendulum experiment. The period of a simple pendulum is determined by the length of the pendulum and the gravitational acceleration at that location, not the size of the bob.
What happens to time period of a simple pendulum if a heavy body is attached to it instead of bob?
The period of a simple pendulum is independent of the mass of the bob. Keep in mind that the size of the bob does affect the length of the pendulum.
Can you realize ideal simple pendulum?
A simple pendulum consists of : . Bob of very small size .suspended by a weightless, inextensible flexible string There are ideal parameters. so,No it is not possible to realize an ideal simple pendulum in practice , because these conditions could not be fullfilled 100%.
Can you realized an ideal simple pendulum?
A simple pendulum consists of : . Bob of very small size .suspended by a weightless, inextensible flexible string There are ideal parameters. so,No it is not possible to realize an ideal simple pendulum in practice , because these conditions could not be fullfilled 100%.
What term is used to describe the difference in duration of large and small arcs of a pendulum?
The term used to describe the difference in duration of large and small arcs of a pendulum is called "isochronism." It refers to the property of a pendulum where its period of oscillation remains constant regardless of the size of the swing.
What would be the effect of replacing the steel with a wooden ball or a lead ball of th same size in a simple pendulum?
Replacing the steel ball with a wooden ball in a simple pendulum would decrease the mass of the pendulum, leading to a shorter period of oscillation. On the other hand, replacing it with a lead ball would increase the mass, resulting in a longer period of oscillation due to the higher inertia.
How much does a pendulum weigh?
A pendulum is a weight suspended from a pivot so it can swing freely. The period of swing of a simple pendulum depends on its length (how far the mass is from the pivot) and is is independent of the mass of the weight. This means that you do not need to worry about the weight except to say that it must be heavy enough not to be disturbed by air currents.
How we select motor capacity for reactor. general formula?
There are many things that could be called reactors. The size of the reactor would make a big difference on what motor is needed. Simple question, difficult answer
Who can make a difference?
That's easy! Anyone can make a difference no mader what religion size age or language I bet I've never even seen you before and I know you can make a difference
What Is The Independent And Dependent Variables in Galileo Pendulum experiment?
Galileo's pendulum experiment showed that the period of the swing is independent of the amplitude (size) of the swing. So the independent variable is the size of the swing, and the dependent variable is the period. The experiment showed there was no dependence, for small swings anyway. The experiment led to the use of the pendulum in clocks.
A slow running pendulum clock can be sprreded up by?
A slow pendulum clock is sp[eeded up by decreasing the effective length of the pendulum. The weight on the pendulum is usually mounted such that it can be slid up and down the swinging arm. Sliding the weight up slightly decreases the effective length of the pendulum, and slightly increases the rate at which the clock runs. It should be done only in tiny adjustments, because the size of the change might not even be noticeable until a day or two later.
What would the pendulum be if the earth were more massive but with the same size?
With a larger mass, the Earth would have a greater gravitational pull, so would cause the pendulum to swing more quickly.
