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<blockquote data-quote="johnellis" data-source="post: 2231270" data-attributes="member: 458303">with a speed V.? When a mass M hangs from a vertical wire of length L, waves travel on this wire with a speed V. What will be the speed of these waves (in terms of V) if we double M without stretching the wire?&nbsp; V_{1}&nbsp; =Part B - What will be the speed of these waves (in terms of V) if we replace the wire with an identical one, except twice as long?&nbsp; V_{2}&nbsp; =Part C - What will be the speed of these waves (in terms of V) if we replace the wire with one of the same length, but three times as heavy?&nbsp; V_{3}&nbsp; =Part D - What will be the speed of these waves (in terms of V) if we stretch the wire to twice its original length?&nbsp; V_{4}&nbsp; =Part E - What will be the speed of these waves (in terms of V) if we increase M by a factor of 10.0, which stretches the wire to double its original length?&nbsp; V_{5}&nbsp; =</blockquote>

[QUOTE="johnellis, post: 2231270, member: 458303"] with a speed V.? When a mass M hangs from a vertical wire of length L, waves travel on this wire with a speed V. What will be the speed of these waves (in terms of V) if we double M without stretching the wire? V_{1} = Part B - What will be the speed of these waves (in terms of V) if we replace the wire with an identical one, except twice as long? V_{2} = Part C - What will be the speed of these waves (in terms of V) if we replace the wire with one of the same length, but three times as heavy? V_{3} = Part D - What will be the speed of these waves (in terms of V) if we stretch the wire to twice its original length? V_{4} = Part E - What will be the speed of these waves (in terms of V) if we increase M by a factor of 10.0, which stretches the wire to double its original length? V_{5} = [/QUOTE]

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