Torque vs Work: Difference between revisions
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===Nuances in Torque=== | ===Nuances in Torque=== |
Revision as of 18:24, 5 December 2015
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JeremyMD
When it comes to our universe, there still remains much that we do not understand. That we we do know and understand, we measure in relation to other ideas or subjects, in terms of abstracts we call units. In modern physics, and most mathematical applications we relate and measure matter and interactions in terms of these units. However, two such descriptions having the same units does necessarily connotate a representation of the same idea or measurement. Here, we will examine one such occurrence in modern physics, specifically the difference between torque and work when both are expressed as Newton*meters.
The Newton-Meter --> Vector vs Scaler
In modern physics, there a two concepts that, while describing different ideas, happen to utilize the same units, these units being:
[math]\displaystyle{ Newton * meters }[/math] [math]\displaystyle{ (N * m) }[/math]
Mathematical Model: The Concepts
The first of these concepts is torque, which is a measurement of the moment that a force causes in a system. A moment is also known as a system's tendency of a force to cause rotation.
[math]\displaystyle{ \vec{\tau} = \vec{F} X \vec{r}_{cm} }[/math]
where [math]\displaystyle{ \tau }[/math] is the vector cross product of the force vector and position vector relative to the center of mass
The second concept is work, which is the measurement of a force acting over a distance on a given system.
[math]\displaystyle{ W = \vec{F}*\vec{r} }[/math]
where W is the scaler dot product of the force vector and change in position vector
Both of these concepts are measured using the units of [math]\displaystyle{ Newton * meters }[/math] , however torque is a vector value while work is a scaler value. This is a key point to keep in mind.
Previously, in Physics, when we addressed the energy principle and energy in general, we describe the measurement of energy and change in energy using the units:
[math]\displaystyle{ Joules }[/math] [math]\displaystyle{ (J) }[/math]
As it happens, work on a system is also equivalent to the change in kinetic energy of a system and therefore can also be expressed in joules. Positive work will add kinetic energy to a system whereas negative work will subtract kinetic energy from a system.
[math]\displaystyle{ W = ∆K = K_{final} - K_{initial} }[/math]
where W is the work done and K is the kinetic energy of the system.
So, work can be expressed in terms of joules, which means that torque can be expressed in terms of joules too, right? Well, it's not quite as straightforward as changing units. Remember, work is a scaler measurement, while torque is a vector representation. They must be measure individually because while work effects the linear momentum of a system, torque effects the angular momentum of a system. To put it in common terms, work relates to the movement of a system from one position to another while torque relates to the twisting of the system itself. So in fact, they represent very different concepts.
Nuances in Work
According to it's definition, work is a force acting over a given distance. So what about forces acting on an object that does not move? Let's look at an example:
Let the mass of the block be [math]\displaystyle{ 5 kg }[/math] and the
Nuances in Torque
Like work, torque also has some interesting situations that are important to take note of.
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