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University Physics with Modern Physics

Hugh D. Young, Roger A. Freedman

Physics

14th edition Edition 路 1596 pages

ISBN: 9780321973610

Chapter 1: Q59E (page 267)

A radio-controlled model airplane has a momentum given by $[(- 0.75 k g . m / s^{3}) t^{2} + (3.0 k g . m / s)] \overset{铃�}{i} + (0.25 k g . m / s^{2}) t \overset{铃�}{j}$ .
What are the x-, y- and z-components of the net force on the airplane?

Short Answer

Expert verified

X-component of net force is 鈥�(1.5 N/s)t.

Y-component of net force is 0.25 N.

Z-component of net force is 0.

Step by step solution

01

The given data

Given that a radio-controlled model airplane has a momentum given by

$P = [(- 0.75 k g . m / s^{3}) t^{2} + (3.0 k g . m / s)] \overset{铃�}{i} + (0.25 k g . m / s^{2}) t \overset{铃�}{j}$ .

02

Find net external force

Net external force is $F = \frac{d P}{d t}$ .

$\frac{d P}{d t} = \frac{d}{d t} \{[(鈭� 0.75 kg 鈰� m / s^{3}) t^{2} + (3.0 kg 鈰� m / s)] \hat{i} + (0.25 kg 鈰� m / s^{2}) \hat{j}\} = \frac{d}{d t} [(鈭� 0.75 kg 鈰� m / s^{3}) t^{2} + (3.0 kg 鈰� m / s)] \hat{i} + \frac{d}{d t} (0.25 kg 鈰� m / s^{2}) \hat{j} = (2 (鈭� 0.75 kg 鈰� m / s^{3})) t \hat{i} + (0.25 kg 鈰� m / s^{2}) \hat{j} = (鈭� 1.5 kg 鈰� m / s^{3}) t \hat{i} + (0.25 kg 鈰� m / s^{2}) \hat{j} = (鈭� 1.5 t \hat{i} + 0.25 \hat{j}) N$

So, net force $F = (鈭� 1.5 t \hat{i} + 0.25 \hat{j}) N$

03

Conclusion

Since $F = (- 1.5 t \overset{铃�}{I} + 0.25 \overset{铃�}{j}) N$

So,

X-component of net force is 鈥�(1.5 N/s)t.

Y-component of net force is 0.25 N.

Z-component of net force is 0.

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