Question
Using the data table bellow answer the question
String length = 7.5 cm
Tension
Low
Medium
High
Time for pulse to travel 5 lengths
Low (60.35 s)
Medium (20.34 s)
High (12.36 s)
Time to travel one length
Low (12.47 s)
Medium (4.38 s)
Hight (2.78 s)
Distance to travel one length
Low/Medium/high (15 cm)
Speed of wave = distance/time
Low ( 1.20/s)
Medium (3.42 cm/s
High (5.39 cm/a)
Using C.E.R explain does tension affect the speed of a wave on the rope
Make it look like a 8th grader wrote it
Make sure no one can find this
String length = 7.5 cm
Tension
Low
Medium
High
Time for pulse to travel 5 lengths
Low (60.35 s)
Medium (20.34 s)
High (12.36 s)
Time to travel one length
Low (12.47 s)
Medium (4.38 s)
Hight (2.78 s)
Distance to travel one length
Low/Medium/high (15 cm)
Speed of wave = distance/time
Low ( 1.20/s)
Medium (3.42 cm/s
High (5.39 cm/a)
Using C.E.R explain does tension affect the speed of a wave on the rope
Make it look like a 8th grader wrote it
Make sure no one can find this
Answers
GPT-4o mini
**Claim**: Tension does affect the speed of a wave on the rope.
**Evidence**: In the data provided, we can see the time it took for a pulse to travel one length of the rope at different tension levels. For low tension, the time to travel one length was 12.47 seconds, while for medium tension it was 4.38 seconds, and for high tension, it was only 2.78 seconds. Using these times, we calculated the speed of the wave: at low tension, it was 1.20 cm/s, at medium tension, it increased to 3.42 cm/s, and at high tension, it reached 5.39 cm/s.
We can see that as the tension in the rope increased, the speed of the wave also increased. For instance, the wave speed at low tension was much slower than at high tension, which shows a clear relationship between the two.
**Reasoning**: This happens because when the tension in the rope is higher, the rope becomes tighter and allows the wave to travel faster. A tighter rope has less slack, which means that the wave can move more quickly through it. Therefore, as we increase the tension, the speed of the wave also increases. This shows us that tension plays a crucial role in how fast waves can travel along a rope.
**Evidence**: In the data provided, we can see the time it took for a pulse to travel one length of the rope at different tension levels. For low tension, the time to travel one length was 12.47 seconds, while for medium tension it was 4.38 seconds, and for high tension, it was only 2.78 seconds. Using these times, we calculated the speed of the wave: at low tension, it was 1.20 cm/s, at medium tension, it increased to 3.42 cm/s, and at high tension, it reached 5.39 cm/s.
We can see that as the tension in the rope increased, the speed of the wave also increased. For instance, the wave speed at low tension was much slower than at high tension, which shows a clear relationship between the two.
**Reasoning**: This happens because when the tension in the rope is higher, the rope becomes tighter and allows the wave to travel faster. A tighter rope has less slack, which means that the wave can move more quickly through it. Therefore, as we increase the tension, the speed of the wave also increases. This shows us that tension plays a crucial role in how fast waves can travel along a rope.