A mass of 300 g is attached to a spring on a horizontal, frictionless table. It is pulled out right to a distance of 14.0 cm and held in place by a force of 8.00 N. It is then released. the a) What is the period of the oscillation? b) Write down the equation for the position x as a function of t, and sketch the graph, with axes labels and numbers. You may use a grapher to do this (i.e. graphing calculator, excel, desmos)
A mass of 300 g is attached to a spring on a horizontal, frictionless table. It is pulled out right to a distance of 14.0 cm and held in place by a force of 8.00 N. It is then released. the a) What is the period of the oscillation? b) Write down the equation for the position x as a function of t, and sketch the graph, with axes labels and numbers. You may use a grapher to do this (i.e. graphing calculator, excel, desmos)
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![A mass of 300 g is attached to a spring on a horizontal, frictionless table. It is pulled out
right to a distance of 14.0 cm and held in place by a force of 8.00 N. It is then released.
the
a) What is the period of the oscillation?
b) Write down the equation for the position x as a function of t, and sketch the graph,
with axes labels and numbers. You may use a grapher to do this (i.e. graphing
calculator, excel, desmos)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9e92ecdb-90d7-46cc-bfdd-babab9be1f7d%2F6a7ad6eb-da71-41b0-a418-54969a0115d5%2Fgku0n6_processed.png&w=3840&q=75)
Transcribed Image Text:A mass of 300 g is attached to a spring on a horizontal, frictionless table. It is pulled out
right to a distance of 14.0 cm and held in place by a force of 8.00 N. It is then released.
the
a) What is the period of the oscillation?
b) Write down the equation for the position x as a function of t, and sketch the graph,
with axes labels and numbers. You may use a grapher to do this (i.e. graphing
calculator, excel, desmos)
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