cmillan Learning When an insect ventures onto a spiderweb, a slight vibration is set up, alerting the spider. The density of spider silk is approximately 1.3 g/cm³, and its diameter varies considerably depending on the type of spider, but 3.0 mm is typical. If the web is under a tension of 0.59 N when a small beetle crawls onto it 33 cm from the spider, how long will it take for the spider to receive the first waves from the beetle? Express your answer to two significant figures in milliseconds.

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Chapter1: Units, Trigonometry. And Vectors
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### Spiderweb Vibration and Wave Transmission

When an insect ventures onto a spiderweb, a slight vibration is set up, alerting the spider. The density of spider silk is approximately 1.3 g/cm³, and its diameter varies considerably depending on the type of spider, but 3.0 mm is typical.

If the web is under a tension of 0.59 N when a small beetle crawls onto it 33 cm from the spider, how long will it take for the spider to receive the first waves from the beetle? Express your answer to two significant figures in milliseconds.

#### Calculation:
\[ t = \]

\[ \text{(user input)} \, \text{ms} \]

Feedback: **Incorrect**
Transcribed Image Text:### Spiderweb Vibration and Wave Transmission When an insect ventures onto a spiderweb, a slight vibration is set up, alerting the spider. The density of spider silk is approximately 1.3 g/cm³, and its diameter varies considerably depending on the type of spider, but 3.0 mm is typical. If the web is under a tension of 0.59 N when a small beetle crawls onto it 33 cm from the spider, how long will it take for the spider to receive the first waves from the beetle? Express your answer to two significant figures in milliseconds. #### Calculation: \[ t = \] \[ \text{(user input)} \, \text{ms} \] Feedback: **Incorrect**
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