A force of 6 N will stretch a rubber band 4 cm (0.04 m). Assuming that Hooke's law applies, how far will an 18-N force stretch the rubber band? How much work does it take to stretch the rubber band this far? How far will an 18-N force stretch the rubber band?

First, we need to calculate the constant force, that is, the ratio between the applied force and the rubber stretch due to the application of the force:

[tex]k=\frac{F}{d}(1)\\k=\frac{6N}{0.04m}\\k=150\frac{N}{m}[/tex]

Now, we can know how far will an 18N force stretch the rubber. From (1):

[tex]d=\frac{F}{k}\\d=\frac{18N}{150\frac{N}{m}}\\d=0.12m=12cm[/tex]

The work done by the external force on the rubber is equal to its elastic potential energy:

[tex]W=\frac{kd^2}{2}\\W=\frac{150\frac{N}{m}(0.12m)^2}{2}\\W=1.08J[/tex]

A force of 6 N will stretch a rubber band 4 cm ​(0.04 ​m). Assuming that​ Hooke's law​ applies, how far will an 18​-N force stretch the rubber​ band? How much work does it take to stretch the rubber band this​ far? How far will an 18​-N force stretch the rubber​ band?

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A force of 6 N will stretch a rubber band 4 cm (0.04 m). Assuming that Hooke's law applies, how far will an 18-N force stretch the rubber band? How much work does it take to stretch the rubber band this far? How far will an 18-N force stretch the rubber band?