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Moment and torque?
- Thread starter pray4mojo
- Start date
soydios
Platinum Member
Moment of inertia = angular equivalent of mass
A spinning disk or ring has inertia, yes? But, this inertia is different from linear inertia. The "mass" that causes angular inertia is dependent on both the mass of the object, its radius, and the distribution of mass within the object. To find the inertia of an object in angular (circular) motion, multiply the angular speed (often expressed in radians per second) times the moment of inertia.
Torque = angular equivalent of force
Torque is angular force. It's dependent on both force applied and the radius of the lever used to apply it. For example, a bigger wrench puts more torque around a central point (the bolt) than a smaller wrench.
A spinning disk or ring has inertia, yes? But, this inertia is different from linear inertia. The "mass" that causes angular inertia is dependent on both the mass of the object, its radius, and the distribution of mass within the object. To find the inertia of an object in angular (circular) motion, multiply the angular speed (often expressed in radians per second) times the moment of inertia.
Torque = angular equivalent of force
Torque is angular force. It's dependent on both force applied and the radius of the lever used to apply it. For example, a bigger wrench puts more torque around a central point (the bolt) than a smaller wrench.
Toastedlightly
Diamond Member
There's also a banana moment....
the moment I am going to eat a banana.
the moment I am going to eat a banana.
FleshLight
Diamond Member
Vector Mechanics for engineers says M sub O = r x F = tau
LordMorpheus
Diamond Member
When a mechanical engineer talks about the moment in a beam he's generally talking about the bending moment (the torque applied to and in the beam causing it to bend).
Torque (though mathematically the same thing) is used to talk about torque on the beam causing it to twist.
I've got two or three texts that do things that way. As long as you keep track of your vectors you don't really need to make the distinction, though.
Torque (though mathematically the same thing) is used to talk about torque on the beam causing it to twist.
I've got two or three texts that do things that way. As long as you keep track of your vectors you don't really need to make the distinction, though.
Goosemaster
Lifer
Same book here too😀
FleshLight
Diamond Member
I think its the de facto standard for mechanics. My professor says he used the 3rd edition of the book 50 years ago when he took the same class 😕
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