Cars & Torque: Flywheel to Drive Shaft

In summary, the equation for torque is \tau = rF\sin{\theta}. The variable r represents the distance from the center of rotation to the point that is rotating. The variable F is the force vector of the point (mass times acceleration in a particular direction). The sine term represents the angle between the axis and the direction that the point is rotating. In this case, this angle is 90 degrees. Since the sine of 90 degrees is 1, all we have to worry about is r and F. Now if you imagine a point on the outer edge of the flywheel, you could determine r (the distance from the center) and F (the mass of the "point" multiplied by its acceleration). If you
  • #1
thecombover
2
0
Some buddies and I were discussing cars and their torque. We were wondering why the amount of toruqe that is exerted by the flywheel is not the same amount of torque at the end of the drive shaft. Does it have something to do with the longer the drive shaft the less torque? or does it deal with the extra mass added by the extra length? If anybody knows it would be great to find out thanks!
 
Physics news on Phys.org
  • #2


I don't know much about cars, but I do know something about torque.

The equation for torque is [tex]\tau = rF\sin{\theta}[/tex].

The variable r represents the distance from the center of rotation to the point that is rotating. The variable F is the force vector of the point (mass times acceleration in a particular direction). The sine term represents the angle between the axis and the direction that the point is rotating. In this case, this angle is 90 degrees. Since the sine of 90 degrees is 1, all we have to worry about is r and F.

Now if you imagine a point on the outer edge of the flywheel, you could determine r (the distance from the center) and F (the mass of the "point" multiplied by its acceleration).

If you imagine a point on the outer edge of the drive shaft, you would get different values for r and F. So, according to the definition of torque, you would get a different value.

Although the torque is not the same, power must be (nearly) the same or we would have a violation of conservation of energy. So now we turn to the definition of power (in terms of torque).

[tex]Power=Torque\times 2\pi \times Rotational Speed[/tex]

So whichever object (flywheel or drive shaft) has less torque, it must also have more rotational speed. This means both objects are capable of delivering the same amount of power and no conservation laws are violated (whew!).
 
Last edited:
  • #3


thecombover said:
Some buddies and I were discussing cars and their torque. We were wondering why the amount of toruqe that is exerted by the flywheel is not the same amount of torque at the end of the drive shaft. Does it have something to do with the longer the drive shaft the less torque? or does it deal with the extra mass added by the extra length? If anybody knows it would be great to find out thanks!

The flywheel is mounted to the engine crank. Between the crank and the drive shaft is the transmission. The transmission changes the torque developed on the crank and applies it to the drive shaft.
 
  • #4


As Phrak post implied, transmissions change gear ratios and those transform torque relationships. Its effectively the same idea as using a long breaking bar on a socket when trying to break loose a tight nut: a longer bar permits more torque but you have to apply more motion to the end to get it. An engine has little torque at low RPM and so high gear ratios enable the engine to rev up more easily to an RPM range where more torque is produced.

HP = (torque x RPM)/5252

Derivation and good discussion at:
http://www.vettenet.org/torquehp.html
 

Related to Cars & Torque: Flywheel to Drive Shaft

What is torque and how does it relate to cars?

Torque is a measure of rotational force that causes an object to rotate around an axis. In cars, torque is generated by the engine and is used to turn the wheels and move the vehicle forward.

What is a flywheel and what is its role in a car's torque?

A flywheel is a disc-shaped mechanical device that is connected to the engine's crankshaft. It stores rotational energy and helps to maintain a smooth and consistent flow of torque to the wheels.

How does the drive shaft transfer torque from the engine to the wheels?

The drive shaft is a long, cylindrical component that connects the engine to the wheels. It uses gears and bearings to transfer the rotational force from the engine to the wheels, allowing the car to move forward.

What factors affect a car's torque?

Several factors can affect a car's torque, including the engine size, design, and power output. The type of transmission, gear ratio, and weight of the vehicle can also impact the amount of torque that is transferred to the wheels.

What is the difference between horsepower and torque?

Horsepower is a measure of the rate at which an engine can do work, while torque is a measure of the engine's rotational force. While horsepower is important for a car's top speed, torque is more crucial for its acceleration and towing capabilities.

Similar threads

Torque and force on a tire iron
    • Mechanics
Replies
6
Views
2K
Torque and Moment of Inertia of a Lever Arm
    • Mechanics
Replies
2
Views
2K
Torque Limiting Extension Question
    • Mechanical Engineering
Replies
14
Views
2K
Conceptual questions about Angular Momentum Conservation and torque
    • Mechanics
Replies
2
Views
1K
I Off center torque applied to a rotating body
    • Classical Physics
Replies
4
Views
1K
Torque calculations: Rotating vertical shaft
    • Mechanical Engineering
Replies
5
Views
3K
Work Lifting Things With and Without Torque
    • Mechanics
Replies
6
Views
1K
Automotive The effect of a flywheel on a car's launch
    • Mechanical Engineering
Replies
22
Views
3K
How is Maximum Sustained Speed Calculated for a Car Driving Up an Incline?
    • Mechanics
Replies
6
Views
1K
Understanding Drive Shaft Stress and Deflection for Optimal Performance
    • Mechanical Engineering
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top