Equations that define a human fall forward

In summary: I don't think this is what you want. Ideally you want to model the person as a deformable object and then solve for the motion. It might be a bit more involved, but it would give you a much more realistic simulation.In summary, an engineering student is trying to determine the equations that relate acceleration motion to mass and height of individuals. However, they have difficulty because the time taken to fall is sensitive to the initial conditions.
  • #1
jonisba5
1
0
Ok so what I want to create is a simulation of how the acceleration of a person falling would change according to the person's mass and height. This would then be explored in Matlab.
Therefore, first, I am trying to find out the equations that would relate acceleration motion with mass and height of the individuals. Can anyone share their thoughts on this?

These are the assumptions we should be making (but feel free to change them):
Axes: x, y, z=0
Initially the person would be standing vertically, perpendicular to the floor
They would fall as if they were a stick, without folding (circular trajectory, until impact with the floor)
Frictionless
The feet can be clamped to the floor
The centre of mass is assumed to be at 1/2 the height of the person.

Thanks! xx
 
Engineering news on Phys.org
  • #2
jonisba5 said:
Ok so what I want to create is a simulation of how the acceleration of a person falling would change according to the person's mass and height. This would then be explored in Matlab.
Therefore, first, I am trying to find out the equations that would relate acceleration motion with mass and height of the individuals. Can anyone share their thoughts on this?

These are the assumptions we should be making (but feel free to change them):
Axes: x, y, z=0
Initially the person would be standing vertically, perpendicular to the floor
They would fall as if they were a stick, without folding (circular trajectory, until impact with the floor)
Frictionless
The feet can be clamped to the floor
The centre of mass is assumed to be at 1/2 the height of the person.

Thanks! xx
Welcome to the PF.

You say in your new member introduction thread that you are an engineering student at university. Have you had basic kinematics yet? Have you learned how to draw free body diagrams (FBDs) yet? BTW, the bolded parts of your post are a bit at odds -- you might as well include friction and not worry about actively holding the feet still. For practical friction coefficient values, the feet will stay in place throughout the fall.
 
  • #3
I see a potential problem to think about. If you model the human as a rigid rod it will only start to fall when it is tilted far enough that the centre of gravity is outside of it's footprint. After that point the rate at which it falls depends on how far outboard the centre of mass is. If the initial offset approaches zero then the time it takes to fall becomes very large or infinite. The time is "sensitive" to the initial conditions. A small change in the initial angle will have a big effect on the time taken to fall.
 

Related to Equations that define a human fall forward

1. What is the equation for human fall forward?

The equation for human fall forward is: F = m x a, where F represents the force, m represents the mass of the human, and a represents the acceleration due to gravity.

2. How is the equation for human fall forward derived?

The equation for human fall forward is derived from Newton's second law of motion, which states that the force applied to an object is equal to its mass multiplied by its acceleration. In the case of a human falling forward, the force is equal to the weight of the human multiplied by the acceleration due to gravity.

3. What factors affect the acceleration in the equation for human fall forward?

The acceleration in the equation for human fall forward is primarily affected by the force of gravity, as well as any external forces acting on the human, such as air resistance or friction. The human's posture and body position can also affect the acceleration.

4. Can the equation for human fall forward be used to predict the distance a human will fall?

No, the equation for human fall forward only describes the force and acceleration of a human falling forward. To predict the distance a human will fall, additional equations and factors such as air resistance and the human's posture would need to be considered.

5. Are there any limitations to the equation for human fall forward?

Yes, the equation for human fall forward assumes that the human is falling in a vacuum, without any air resistance. Additionally, it does not take into account any other external forces or factors that may affect the fall, such as obstacles or uneven surfaces. It is also important to note that this equation is a simplified model and may not accurately represent all situations of human falls.

Similar threads

Free fall equations with realistic, altitude-dependent g?
    • Mechanics
Replies
13
Views
1K
How can I calculate the force of a falling object?
    • Mechanics
Replies
26
Views
5K
Can the Physics of Human Falling be Defined by Equations?
    • New Member Introductions
Replies
1
Views
2K
Weight of gold chain when dropped on a weighing scale
    • Introductory Physics Homework Help
Replies
12
Views
1K
Force of impact for human falling different heights
    • Introductory Physics Homework Help
Replies
5
Views
2K
Simulating Free Fall Using Euler's Method in C
    • Calculus and Beyond Homework Help
Replies
10
Views
6K
How Does Air Resistance Affect the Acceleration of Falling Objects?
    • Introductory Physics Homework Help
Replies
13
Views
2K
B Can Increasing Human Body Density Enable Breaking Rocks by Hand Compression?
    • Other Physics Topics
Replies
9
Views
2K
Write a computer program to solve for time of a falling body
    • Introductory Physics Homework Help
Replies
5
Views
2K
Does force of falling object include its own weight?
    • Introductory Physics Homework Help
Replies
8
Views
2K

Hot Threads

Recent Insights

Back
Top