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Chapter 12: Q87P (page 353)

A particle is acted on by forces given, in newtons, by $\overset{鈫�}{F_{1}} = 8 .40 \hat{i} 鈭� 5 .70 \hat{j}$ and $\overset{鈫�}{F_{2}} = 16 .0 \hat{i} + 4 .10 \hat{j}$ . (a) What are the xcomponent $\overset{鈫�}{F_{3}}$ and (b) ycomponent of the force Fthat balances the sum of these forces? (c) What angle does $\overset{鈫�}{F_{3}}$ have relative to the $+ x a x i s$ ?

Short Answer

Expert verified

a) the x component of force F₃, $F_{x} = 鈭� 24.4$ .

b) y component of force F₃, $F_{y} = 1.60$ .

c) The angle of force F₃ with the +x axis, $胃 = 鈭� 3.75 掳$ .

Step by step solution

01

Understanding the given information

$\overset{鈫�}{F_{1}} = 8.40 鈭� 5.70$

$\overset{鈫�}{F_{2}} = 16.0 + 4.10$

02

Step 2: Concept and formula used in the given question

Using the equation of equilibrium of force, you can find the components of force F₃ and its angle. The formulas are given below.

$\begin{array}{l} {\overset{鈫�}{F}}_{n e t} = \overset{鈫�}{F_{1}} + \overset{鈫�}{F_{2}} \\ 胃 = (\frac{F_{y}}{F_{x}}) \end{array}$

03

(a) Calculation for thex component F3→

The net force acting on the particle is given by,

${\overset{鈫�}{F}}_{n e t} = \overset{鈫�}{F_{1}} + \overset{鈫�}{F_{2}}$

So, $\overset{鈫�}{F_{n e t}} = 24.4 \hat{i} 鈭� 1.60 \hat{j}$

Hence, the force $\overset{鈫�}{F_{3}}$ which balances the force $\overset{鈫�}{F_{net}}$ can be written as,

$\overset{鈫�}{F_{3}} = 鈭� 24.4 \hat{i} + 1.60 \hat{j}$

From the equation of $\overset{鈫�}{F_{3}}$ ,we get the x component as,

$F_{x} = 鈭� 24.4 鈥塏$

04

(b) Calculation for they component of the force F that balances the sum of these forces

From the equation of $\overset{鈫�}{F_{3}}$ you get the y component as,

$F_{y} = 1.60 鈥塏$

05

(c) Calculation for theangle does F3→ have relative to the +x-axis

The angle of the force $\overset{鈫�}{F_{3}}$ can be calculated using the equation,

$\begin{matrix} 胃 = (\frac{F_{y}}{F_{x}}) \\ = (\frac{1.60 鈥� N}{鈭� 24.2 鈥夆赌� N}) \\ = 鈭� 3.75 掳 \end{matrix}$

The negative sign implies that the angle is measured in the clockwise direction with respect to the positive x-axis.

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