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13.6.1
The differential equation of the vibrational motion of a material point is given in the form x + 10x = 1.5 sin (5 t + 0.4). Determine the mass of the point if the maximum value of the driving force F0 = 60 N. (Response 40)
The differential equation of the vibrational motion of a material point is given in the form x + 10x = 1.5 sin (5 t + 0.4). Determine the mass of the point if the maximum value of the driving force F0 = 60 N. (Response 40)
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Solution of task 13.6.1 from the collection of Kepe OE
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Михаил_Перович
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| 100 $ | the discount is 10% |
| 50 $ | the discount is 7% |
| 20 $ | the discount is 5% |
| 10 $ | the discount is 3% |
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Михаил_Перович
1.62
Cumulative discount
| 200 $ | the discount is 15% |
| 100 $ | the discount is 10% |
| 50 $ | the discount is 7% |
| 20 $ | the discount is 5% |
| 10 $ | the discount is 3% |
| 5 $ | the discount is 2% |
| 1 $ | the discount is 1% |
Check your discount
Amount of purchases from the seller: $
Your discount: %
0.04 $ gift card for a positive review