The figure represents an insect caught at the midpoint of a spider-web thread. The thread breaks under a stress of 8.8 x 108 N/m² and a strain of 2.00. Initially, it was horizontal and had a length of 2.0 cm and a cross-sectional area of 10.0 × 10-12 m². As the thread was stretched under the weight of the insect, its volume remained constant. If the weight of the insect puts the thread on the verge of breaking, what is the insect's mass? (A spider's web is built to break if a potentially harmful insect, such as a bumble bee, becomes snared in the web.) Number Units kg
The figure represents an insect caught at the midpoint of a spider-web thread. The thread breaks under a stress of 8.8 x 108 N/m² and a strain of 2.00. Initially, it was horizontal and had a length of 2.0 cm and a cross-sectional area of 10.0 × 10-12 m². As the thread was stretched under the weight of the insect, its volume remained constant. If the weight of the insect puts the thread on the verge of breaking, what is the insect's mass? (A spider's web is built to break if a potentially harmful insect, such as a bumble bee, becomes snared in the web.) Number Units kg
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Transcribed Image Text:Flying Circus of Physics
The figure represents an insect caught at the midpoint of a spider-web thread. The thread breaks under a stress of 8.8 × 108 N/m² and
a strain of 2.00. Initially, it was horizontal and had a length of 2.0 cm and a cross-sectional area of 10.0 × 10-12 m². As the thread was
stretched under the weight of the insect, its volume remained constant. If the weight of the insect puts the thread on the verge of
breaking, what is the insect's mass? (A spider's web is built to break if a potentially harmful insect, such as a bumble bee, becomes
snared in the web.)
Number i
Units
kg
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