A spring is compressed by 0.0638 m and is used to launch an object horizontally with a speed of 3.16 m/s. If the object were attached to the spring, at what angular frequency (in rad/s) would it oscillate? An 8.35-kg stone at the end of a steel (Young's modulus 2.0 x 1011 N/m2) wire is being whirled in a circle at a constant tangential speed of 17.3 m/s. The stone is moving on the surface of a frictionless horizontal table. The wire is 3.51 m long and has a radius of 1.40 x 10-3 m. Find the strain in the wire.

A spring is compressed by 0.0638 m and is used to launch an object horizontally with a speed of 3.16 m/s. If the object were attached to the spring, at what angular frequency (in rad/s) would it oscillate? An 8.35-kg stone at the end of a steel (Young's modulus 2.0 x 1011 N/m2) wire is being whirled in a circle at a constant tangential speed of 17.3 m/s. The stone is moving on the surface of a frictionless horizontal table. The wire is 3.51 m long and has a radius of 1.40 x 10-3 m. Find the strain in the wire.

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Question

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An 8.35-kg stone at the end of a steel (Young's modulus 2.0 x 10¹¹ N/m²) wire is being whirled in a circle at a constant tangential speed of 17.3 m/s. The stone is moving on the surface of a frictionless horizontal table. The wire is 3.51 m long and has a radius of 1.40 x 10^-3 m. Find the strain in the wire.

A spring is compressed by 0.0638 m and is used to launch an object horizontally with a speed of 3.16 m/s. If the object were attached
to the spring, at what angular frequency (in rad/s) would it oscillate?
Number
Units

An 8.35-kg stone at the end of a steel (Young's modulus 2.0 x 1011 N/m2) wire is being whirled in a circle at a constant tangential speed
of 17.3 m/s. The stone is moving on the surface of a frictionless horizontal table. The wire is 3.51 m long and has a radius of 1.40 x 103
m. Find the strain in the wire.
Number
i
Units

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