Final answer:
The question is in the realm of Physics, specifically concerning torque in mechanics, at a High School level. It requires understanding torque balance and rotational dynamics to address misconceptions about forces exerted on objects.
herefore, the answer is False. The rod will not remain in the position shown when a 150 Nm torque is applied.
Step-by-step explanation:
The subject of this question is Physics, as it pertains to the concept of torque, which is a measure of the force causing an object to rotate. The question appears to be at a High School level, as it deals with topics typically covered in high school physics courses like mechanics and rotational dynamics.
Misconceptions about torque and force are common, so it's important to understand that the amount of force needed to move an object along an inclined plane, like a ramp, does not directly correspond to the force exerted in a given direction.
Similarly, when dealing with torque balance, the mass distribution and distances from the pivot point are crucial to determining the forces and reactions within the system.
Hence, without additional information about the rod's dimensions and the point of application of the torque, it's not possible to assess the validity of the statement about the torque applied to the slender rod.
The question asks whether a 30 kg uniform slender rod AB rests in the position shown when a 150 Nm torque is applied.
To determine the answer, we need to consider the equilibrium condition for rotational motion. In order for the rod to remain in the position shown, the net torque acting on it must be zero. If a torque of 150 Nm is applied, there must be an equal and opposite torque acting on the rod to balance it out.
Therefore, the answer is False. The rod will not remain in the position shown when a 150 Nm torque is applied.