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The weight of a pendulum is released very close to a wall how many return swings will strike the wall?
The number of return swings that will strike the wall will depend on the length of the pendulum and the distance from the release point to the wall. For a typical pendulum, the first return swing may strike the wall if the initial release is very close. Subsequent return swings may or may not strike the wall, depending on the pendulum's length and the wall's distance.
What else can I help you with?
The weight of a pendulum is released very close to a wall. How many return swings will strike the wall?
The number of return swings that will strike the wall depends on the length of the pendulum and the distance it was released from the wall. If the length is shorter and the release angle is more acute, the pendulum may strike the wall on the first return swing. If the length is longer or the release angle is less acute, it may take multiple swings for the pendulum to reach the wall.
What makes a pendulum swing?
A pendulum swings due to the force of gravity acting on it as it moves back and forth. When the pendulum is released from a raised position, gravity causes it to fall and start swinging. The length of the pendulum and the angle at which it is released also affect how it swings.
What force acted on the pendulum when it was released from its raised position?
When the pendulum was released from its raised position, the force acting on it is gravity. As the pendulum swings back and forth, gravity provides the force that accelerates it towards the center of the Earth.
Who said the pendulum swing like the pendulum do?
American poet Maya Angelou said the quote "The market swings like the market does, the pendulum swings like the pendulum does."This quote is a reference to the fluctuating nature of the economy and life in general.
Is the relationship between the number of pendulum swings and time direct or inverse?
swings = cycles x time ; it is a direct relationship with time
The weight of a pendulum is released very close to a wall. How many return swings will strike the wall?
The number of return swings that will strike the wall depends on the length of the pendulum and the distance it was released from the wall. If the length is shorter and the release angle is more acute, the pendulum may strike the wall on the first return swing. If the length is longer or the release angle is less acute, it may take multiple swings for the pendulum to reach the wall.
What are the release dates for Pendulum Swings - 2011?
Pendulum Swings - 2011 was released on: USA: 8 January 2011
What makes a pendulum swing?
A pendulum swings due to the force of gravity acting on it as it moves back and forth. When the pendulum is released from a raised position, gravity causes it to fall and start swinging. The length of the pendulum and the angle at which it is released also affect how it swings.
Does a 45 cm pendulum have less swings then a 38 cm pendulum and why?
A pendulum swings as far out as you care to set it going, irrespective of length.
What force acted on the pendulum when it was released from its raised position?
When the pendulum was released from its raised position, the force acting on it is gravity. As the pendulum swings back and forth, gravity provides the force that accelerates it towards the center of the Earth.
What is the relationship between the length of the string of a pendulum and the number of swings?
There's no relationship between the length of the pendulum and the number of swings.However, a shorter pendulum has a shorter period, i.e. the swings come more often.So a short pendulum has more swings than a long pendulum has in the same amountof time.
The amplitude of a pendulum is doubled what does this mean?
The pendulum swings twice as far.
Who said the pendulum swing like the pendulum do?
American poet Maya Angelou said the quote "The market swings like the market does, the pendulum swings like the pendulum does."This quote is a reference to the fluctuating nature of the economy and life in general.
Is the relationship between the number of pendulum swings and time direct or inverse?
swings = cycles x time ; it is a direct relationship with time
What is the number of swings a pendulum makes in 10 swings?
I'd guess that if it swings 10 times, it makes 10 swings.
Which length of the pendulum made the most number of swings?
A shorter pendulum will make more swings per second. Or per minute. Or whatever.
If not pushed why does the pendulum not go as high when it swings back?
The pendulum swings back lower because of the conservation of energy. As the pendulum swings to one side, it converts potential energy to kinetic energy. When it swings back, it loses some energy to friction and air resistance, causing it to not go as high as before.
