Why does the drag force increase with velocity and viscosity?

  • Thread starter TMM
  • Start date
In summary, the drag force is proportional to the velocity to some power, n, and n increases with velocity and viscosity of the medium due to increasing turbulence. The drag coefficient also varies with Reynolds number, which is dependent on velocity, and can be approximately constant (F ~ v^2) or proportional to 1/R (F ~ v) in different speed ranges. Formulas for n may not exist due to the shape dependency of drag.
  • #1
TMM
92
0
I know that the drag force is proportional to the velocity to some power, n, and that n increases with velocity and with the viscosity of the medium.

I want to know why n increases, and how (mathematically) it increases. Some general speed ranges for v and v^2 in STP would be appreciated as well.
 
Physics news on Phys.org
  • #2
n increases because turbulence increases.
The drag is so shape dependent, that I don't if there are formulas for n.
The fact that n depends on v means that n is really meaningless,
and is just used to make problems tractable
 
  • #3
This sort of thing is usually discussed by specifying how the drag coefficient varies with Reynolds number (which depends on velocity). You should find some nice plots if you search for those terms. Although these can be complicated, there are large regions where the drag coefficient remains approximately constant (F ~ v^2) or goes like 1/R (so F ~ v).
 
  • #4
Alright, I looked up some things on Reynolds number as you suggested.

Thanks for the info.
 

1. What is drag-velocity dependency?

Drag-velocity dependency refers to the relationship between an object's velocity and the amount of drag, or resistance, it experiences as it moves through a fluid medium.

2. How does drag-velocity dependency affect objects in motion?

As an object's velocity increases, the amount of drag it experiences also increases. This means that the faster an object moves, the more resistance it will encounter from the fluid it is moving through.

3. What factors influence the extent of drag-velocity dependency?

The extent of drag-velocity dependency is primarily influenced by the shape, size, and speed of the object, as well as the properties of the fluid medium it is moving through, such as density and viscosity.

4. How is drag-velocity dependency calculated and measured?

There are various mathematical equations and models that can be used to calculate and measure drag-velocity dependency. These typically take into account the aforementioned factors, such as the object's shape and speed, to determine the amount of drag it will experience at a given velocity.

5. How is drag-velocity dependency important in scientific research and real-world applications?

Understanding drag-velocity dependency is crucial in fields such as aerodynamics and hydrodynamics, where the movement of objects through air and water is of interest. It is also important in industries such as transportation, where reducing drag can improve efficiency and decrease fuel consumption.

Similar threads

B Terminal Velocity Equation in vertical cylinder with some fluid
    • Mechanics
Replies
2
Views
610
I Drag Coefficient of a 'flexible' object (e.g. a piece of paper)
    • Mechanics
Replies
4
Views
347
Why does Cd increase until Mach1 while drag force increases?
    • Mechanics
Replies
1
Views
1K
How increased mass and drag affect speed
    • Mechanics
Replies
1
Views
2K
I Energy of spinning objects as axis of rotation moves
    • Mechanics
Replies
1
Views
435
Power required to reach X velocity in X time with drag
    • Mechanics
Replies
10
Views
1K
I Drag equation - relative flow velocity
    • Mechanics
Replies
11
Views
2K
Relationship between Drag Force & Viscous Torque on USA Football
    • Mechanics
Replies
6
Views
713
Lowest Kinematic Viscosity Fluid - High Pressure Gas
    • Mechanics
Replies
1
Views
2K
I Calculating Water Pool Depth: Factors to Consider in Fluid Dynamics
    • Mechanics
Replies
13
Views
716

Hot Threads

Recent Insights

Back
Top