Calculating Angle of Globe on Accelerating Train - Forces in Motion

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Homework Help Overview

The problem involves calculating the angle a hanging light globe makes with the vertical when a train accelerates. The subject area pertains to forces in motion and dynamics within a non-inertial reference frame.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the effects of acceleration on the globe, considering forces acting on it, including gravity and the apparent force due to the train's acceleration. There are mentions of using trigonometric relationships and the Pythagorean theorem to analyze the situation.

Discussion Status

The discussion is ongoing, with participants exploring different aspects of the problem. Some have provided insights into the forces involved, while others have raised questions about the role of the rope's length in the scenario.

Contextual Notes

There is a mention of the train's acceleration and its impact on the inertial frame of reference, which may influence the analysis of forces acting on the globe.

futb0l
Got this out of my book .. had no idea how to do it.
Here's the exact question...

An old light globe hangs by a wire from the
roof of a train. What angle does the globe
make with the vertical when the train is accelerating
at 1.5 m s−2?

Thanks guys.
 
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When the train is accelerating with accelration a, it's no longer an inertial frame.
It looks like all objects in this frame are subjected to an apparent force F=-ma.

So just act like there's a horizontal force -ma acting on the globe.
 
Simple trig. What's the force and direction of gravity? What's the force and direction of the train's acceleration? Apply the Pythagorean theorem to get the magnitude and look at your trig relationships (SOHCAHTOA).
 
I think the length of the rope is also a factor.
 
Thanks BobG!
 

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