[amp_mcq option1=”$${\text{v}} = \omega \sqrt {{{\text{y}}^2} – {{\text{r}}^2}} $$” option2=”$$\overline {\text{y}} = \omega \sqrt {{\text{y}} – {\text{r}}} $$” option3=”$${\text{v}} = \omega \sqrt {{{\text{r}}^2} + {{\text{y}}^2}} $$” option4=”$${\text{v}} = \omega \sqrt {{{\text{r}}^2} – {{\text{y}}^2}} $$” correct=”option3″]
The correct answer is $\boxed{\text{v} = \omega \sqrt{r^2 + y^2}}$.
The velocity of a particle moving in a circle is given by the following equation:
$$\text{v} = \omega r$$
where $\omega$ is the angular velocity and $r$ is the radius of the circle.
In this case, the particle is moving with a uniform angular velocity of $\omega$ radians/sec. The radius of the circle is $r$. Therefore, the velocity of the particle is:
$$\text{v} = \omega r = \omega \sqrt{r^2 + y^2}$$
where $y$ is the distance of the particle from the center of the circle.
Option A is incorrect because it does not include the term $r$. Option B is incorrect because it does not include the term $\omega$. Option C is incorrect because it does not include the term $y$.