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Pendulum has a gravitational potential energy of 224 J when it is at its highest point At the lowest point in its swing it has a velocity of 4 ms What is the mass of the pendulum?
To find the mass of the pendulum, we need more information such as the height of the highest point and the length of the pendulum. With the given information, we cannot determine the mass of the pendulum. The mass of the pendulum depends on various factors including its potential energy, velocity, and dimensions.
What are the 4 variables in the standard pendulum system?
The four variables in a standard pendulum system are the length of the pendulum, the mass of the pendulum bob, the gravitational acceleration, and the angle at which the pendulum is released.
What are the physical parameters in the investigation of a simple pendulum?
The physical parameters of a simple pendulum include (1) the length of the pendulum, (2) the mass of the pendulum bob, (3) the angular displacement through which the pendulum swings, and (4) the period of the pendulum (the time it takes for the pendulum to swing through one complete oscillation).
A simple pendulum has a frequency of oscillation f In order to double f the length of the pendulum should be?
To double the frequency of oscillation of a simple pendulum, you would need to reduce the length by a factor of four. This is because the frequency of a simple pendulum is inversely proportional to the square root of the length. Mathematically, f = (1 / 2π) * √(g / L), so doubling f requires reducing L by a factor of four.
How do you calculate the acceleration due to gravity using a simple pendulum?
The period of a simple pendulum is 2 pi (L/g)1/2. Construct a pendulum and set it into motion. Measure the period for small swings. Back-calculate g...t = 2 pi (L/g)1/2t2 = 4 pi2 L/gg = 4 pi2 L/t2
Pendulum has a gravitational potential energy of 224 J when it is at its highest point At the lowest point in its swing it has a velocity of 4 ms What is the mass of the pendulum?
To find the mass of the pendulum, we need more information such as the height of the highest point and the length of the pendulum. With the given information, we cannot determine the mass of the pendulum. The mass of the pendulum depends on various factors including its potential energy, velocity, and dimensions.
Explain how the length of a string affects the motion of a simple pendulum?
You mean the length? We can derive an expression for the period of oscillation as T = 2pi ./(l/g) Here l is the length of the pendulum. So as length is increased by 4 times then the period would increase by 2 times.
What are the 4 variables in the standard pendulum system?
The four variables in a standard pendulum system are the length of the pendulum, the mass of the pendulum bob, the gravitational acceleration, and the angle at which the pendulum is released.
What are the 4 main factors of describing a place?
anything about your face
In simple pendulum if string is flexible then what is effect on time period?
multiply the length of the pendulum by 4, the period doubles. the period is proportional to the square of the pendulum length.
What are the release dates for Life's Pendulum - 1917?
Life's Pendulum - 1917 was released on: USA: 4 February 1917
What are the physical parameters in the investigation of a simple pendulum?
The physical parameters of a simple pendulum include (1) the length of the pendulum, (2) the mass of the pendulum bob, (3) the angular displacement through which the pendulum swings, and (4) the period of the pendulum (the time it takes for the pendulum to swing through one complete oscillation).
How must the length of a pendulum be changed to double it's period?
The formula for the frequency of the pendulum is w2=g/l if you wish to double your period w1, you want to have w2 = 2*w1 The needed length of the pendulum is then l2 = g / w22 = g /(4 * w12) = 0.25 * g / w12 = 0.25 * l1 l2 / l1 = 1/4 You must shorten the length of the pendulum to 1/4 of its former size.
What is the length of a pendulum with a period of 4.48ses?
The equation for the length, L, of a pendulum of time period, T, is gievn byL = g(T2/4?2),where g is the acceleration due to gravity. So, for a pendulum of time period 4.48 sec, the length of the pendulum is 4.99 metres (3 s.f).
To determine the valu of 'g' by kater's reversible pendulum?
g = (4(Pi)2*l)/t2where l, is the pendulum length and t,is the periodic time.
If the period of a pendulum is 4 seconds what would the frequency be?
1/4 Hertz or 1.4 per second.
How a day is measured?
Take a pendulum that is 10 meters off of the ground. As the Earth rotates, the pendulum will also rotate. Measure the time it takes for the pendulum to return to the exact spot. It equals 23 h 56 m 4 s.
