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ukpclark
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Need some Homework help PLEASE
1. Homework Statement (problem one i need help with)
A light string of mass 10.0 g and length L = 3.00 m has its ends tied to two walls that are separated by the distance D = 1.90 m. Two masses, each of mass m = 1.95 kg, are suspended from the string as in Figure P13.64. If a wave pulse is sent from point A, how long does it take to travel to point B?
Diagram is attached
I think you apply Newtons second law for equilibrim applied to the block and mass per unit length of the string is =M/L
Sqaure root of (1.95kg)(9.8m/s^2)/(10g)(1.90m)=62.6m/s
t=d/v=1.90m/62.6m/s
Problem 2 i need help with.
A stone is dropped from rest into a well. The sound of the splash is heard exactly 2.20 s later. Find the depth of the well if the air temperature is 12.0°C.
I have completed the rest of my webassign but i am completely lost on these two problems. I have pages of notes trying to solve the first problem but and totally lost on the second. Thanks so much.
1. Homework Statement (problem one i need help with)
A light string of mass 10.0 g and length L = 3.00 m has its ends tied to two walls that are separated by the distance D = 1.90 m. Two masses, each of mass m = 1.95 kg, are suspended from the string as in Figure P13.64. If a wave pulse is sent from point A, how long does it take to travel to point B?
Diagram is attached
I think you apply Newtons second law for equilibrim applied to the block and mass per unit length of the string is =M/L
Sqaure root of (1.95kg)(9.8m/s^2)/(10g)(1.90m)=62.6m/s
t=d/v=1.90m/62.6m/s
Problem 2 i need help with.
A stone is dropped from rest into a well. The sound of the splash is heard exactly 2.20 s later. Find the depth of the well if the air temperature is 12.0°C.
I have completed the rest of my webassign but i am completely lost on these two problems. I have pages of notes trying to solve the first problem but and totally lost on the second. Thanks so much.
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