I have a question that goes thus. At what angle $\theta$ must the $500N$ force be applied in order that the resultant $R = 1000N$. For this condition what will.ne the angle $\beta$ between $R$ and horizontal
I got
$ \theta =97.9^\circ$ and $\beta=34.1^\circ$
But I'm not sure that's rightly done. I need help with verification of result
Here's my solution
The problem in your solution is a confusion about angle $\theta$ from the cosine rule you are using. The triangle of forces will look like the following image:
where r is the angle in the cosine rule:
$$R^2 = F_1^2 +F_2^2 - 2F_1 F_2 \cos(r)$$
$$R^2 = F_1^2 +F_2^2 - 2F_1 F_2 \cos(180-\theta)$$
If this is superimposed to your initial image it will look like the following:
So what you calculate as 97.9 is actually equal to $180-\theta$. Therefore $\theta$ in your original drawing is $82.096[deg]$.
When you substitute, you can obtain the components of $R_x, R_y$ (notice the use of $\phi$). Therefore:
If you take the magnitude of $R$ you get $\sqrt{(-868.75)^2 + 495.25^2}=1000$ as specified.
Regarding the angle between R (lets denote it $\phi_R$) and the positive X axis:
$$\tan(\phi_R)=\frac{R_y}{R_x} = \frac{495}{-868.75} $$ $$\phi_R=150[deg]$$
I used the following method to find the angle $\theta$. It leads to the same values.
Lets write $F_1 = -800[N]$ and $F_2=500N$. Also assume the $\phi$ is angle with the positive x, therefore $\phi = 180-\theta$.
Then the resultant R will have:
$$R_x = F_1 + F_2 \cos(\phi) \qquad R_y=F_2 \sin(\phi)$$
Then $$|R|= \sqrt{(F_1 + F_2 \cos(\phi))^2 + (F_2 \sin(\phi))^2 }$$
Solving for this you get
$$\phi= 97.9[deg]\rightarrow \theta = 82.1$$
Since we are working on force vectors. You can should always verify your answers graphically with direction in mind. The diagram below is an example utilizing the original sketch and using parallelogram method. Note that in which the vectors (500N & 800N) shall be drawn to correct length and direction, thus the resultant R can be directly measured off
In addition, the angle between the resultant force and the horizontal x-axis can be solved by triangular method (solving the right triangle).
[![enter image description here][2]][2]
Please let me know, if the solves above contain mistakes. [2]: https://i.sstatic.net/lMfVD.png
