Z205 from System Zoo 1 p95-98
Physics Science System Zoo

Z205 from System Zoo 1 p95-98

Chaotic Bistable Oscillator
Geoff McDonnell
Insight diagram
Motion Physics
Pendulum
Edythe
15
THE BROKEN LINK BETWEEN SUPPLY AND DEMAND CREATES TURBULENT CHAOTIC DESTRUCTION The existing global capitalistic growth paradigm is totally flawed Growth in supply and productivity is a summation of variables as is demand ... when the link between them is broken by catastrophic failure in a compon
Finance Environment Economics Mathematics Physics Biology Health Fractals Chaos TURBULENCE Engineering Navier Stokes Supply Demand Strategy
THE BROKEN LINK BETWEEN SUPPLY AND DEMAND CREATES TURBULENT CHAOTIC DESTRUCTION

The existing global capitalistic growth paradigm is totally flawed

Growth in supply and productivity is a summation of variables as is demand ... when the link between them is broken by catastrophic failure in a component the creation of unpredictable chaotic turbulence puts the controls ito a situation that will never return the system to its initial conditions as it is STIC system (Lorenz)

The chaotic turbulence is the result of the concept of infinite bigness this has been the destructive influence on all empires and now shown up by Feigenbaum numbers and Dunbar numbers for neural netwoirks

See Guy Lakeman Bubble Theory for more details on keeping systems within finite working containers (villages communities)

THE BROKEN LINK BETWEEN SUPPLY AND DEMAND CREATES CHAOTIC TURBULENCE (+controls)
Guy Lakeman
20
Insight diagram
Kinematics IACS Wind Resistance Physics
Wind Resistance Model
Christopher DiCarlo
98
Spring-Mass model used in IACS physics class
Physics Kinematics Spring Periodic Motion IACS
Spring-Mass model used in IACS physics class
Spring-Mass Model
Christopher DiCarlo
7
Simulate an impact of an asteroid of any Diameter at any given Speed!
Physics Science Energy Education Kinematics asteroid meteorite Realist Heating Friction Environment
Simulate an impact of an asteroid of any Diameter at any given Speed!
Asteroid impact simulator
Alex Neroni
2 weeks ago
Insight diagram
Physics
Nuclear Decay Chain
Bernd Säring
21 5 days ago
Z206 from Hartmut Bossel System Zoo 1 p99-102 See also a beautiful Youtube 3D  Video Simulation
Physics Science Chaos

Z206 from Hartmut Bossel System Zoo 1 p99-102 See also a beautiful Youtube 3D Video Simulation

Lorenz Attractor
Geoff McDonnell
Insight diagram
Physics
Rocket Model
Christopher DiCarlo
3
Basic model of Newton's mechanics applied to fall with air friction (e.g. an air balloon) Ff prop v*v
Niedderer Schecker Physik Physics
Basic model of Newton's mechanics applied to fall with air friction (e.g. an air balloon)
Ff prop v*v
Fall of a balloon in air
Hans Niedderer
5
Grundmodell der Newtonschen Mechanik angewendet auf den Fall mit Luftreibung (z.B. Fallschirmspringen)
Physik Physics Schecker
Grundmodell der Newtonschen Mechanik angewendet auf den Fall mit Luftreibung (z.B. Fallschirmspringen)
Fall_mit_Luftreibung
Prof. Dr. Horst Schecker
10
Potential energy to Velocity
Physics Education
Potential energy to Velocity
Velocity
Tsogbadrakh Banzragch
9
Uma roda-gigante de raio 14 m gira em torno de um eixo horizontal. Um passageiro sentado em uma cadeira, move-se com velocidade linear v=7 m/s. Determine: a) a velocidade angular do movimento. b) gráfico XY do movimento da cadeira. c) em quanto tempo o passageiro executa uma volta completa.
Physics Simulation. SYSTEM DYNAMIC Kinematics Computational Modeling

Uma roda-gigante de raio 14 m gira em torno de um eixo horizontal. Um passageiro sentado em uma cadeira, move-se com velocidade linear v=7 m/s. Determine:

a) a velocidade angular do movimento.

b) gráfico XY do movimento da cadeira.

c) em quanto tempo o passageiro executa uma volta completa.

Clique aqui para ver uma descrição do que é Movimento Circular.

Movimento Circular Uniforme
Paulo Villela
6
Rotating Pendulum Z201 from System Zoo 1 p80-83
Science System Zoo Education Physics

Rotating Pendulum Z201 from System Zoo 1 p80-83

Rotating Pendulum
Geoff McDonnell
6
This shows the motion of a mass suspended from a spring, with damping. An accurate solution requires a small time step and RK4 as the integration algorithm.
Physics Mechanics
This shows the motion of a mass suspended from a spring, with damping. An accurate solution requires a small time step and RK4 as the integration algorithm.
Simple harmonic oscillator with damping
Alfredo Louro
9
Just a basic example of heat flow between two reservoirs at 100 degrees and 0 degrees.
Physics
Just a basic example of heat flow between two reservoirs at 100 degrees and 0 degrees.
Simple Heat Flow between two idential layers
Hank de Wit
A simple model of radioactive decay as a typical example of exponential decay.
Physics
A simple model of radioactive decay as a typical example of exponential decay.
RadioActive Decay
Wouter van Joolingen
6 months ago
​Lab 2 for Physics PHY201 Simulating a spherical projectile released with an initial velocity of 0 m/s that experiences both forces of gravity and air drag.
Momentum Gravity PHY201 Physics Projectile Drag
​Lab 2 for Physics PHY201
Simulating a spherical projectile released with an initial velocity of 0 m/s that experiences both forces of gravity and air drag.
PHY201 - Lab 2 - Projectile with Air Drag (V2)
Niels Johnson-Laird
OVERSHOOT GROWTH GOES INTO TURBULENT CHAOTIC DESTRUCTION The existing global capitalistic growth paradigm is totally flawed The chaotic turbulence is the result of the concept of infinite bigness this has been the destructive influence on all empires and now shown up by Feigenbaum numbers and Dunb
Health Environment Economics Finance Mathematics Physics Biology Fractals Chaos TURBULENCE Engineering Navier Stokes Science Demographics Population Growth Strategy Weather
OVERSHOOT GROWTH GOES INTO TURBULENT CHAOTIC DESTRUCTION

The existing global capitalistic growth paradigm is totally flawed

The chaotic turbulence is the result of the concept of infinite bigness this has been the destructive influence on all empires and now shown up by Feigenbaum numbers and Dunbar numbers for neural netwoirks

See Guy Lakeman Bubble Theory for more details on keeping systems within finite limited size working capacity containers (villages communities)

OVERSHOOT GROWTH INTO TURBULENCE
Guy Lakeman
7
Attempt to create a very simple decay model for a single radioactive substance.
Physics Radioactivity
Attempt to create a very simple decay model for a single radioactive substance.
Radioactive decay
Jean-Daniel NICOLET
11 months ago
Flugbahn eines Federballs - Simulation und Messung (Tracker Video Analysis and Modeling Tool)
Physics
Flugbahn eines Federballs - Simulation und Messung (Tracker Video Analysis and Modeling Tool)
Schiefer Wurf mit Luftwiderstand
Wolfgang Thomaser
10
The underlying differential equation for this very minimal model is a non-dimensional version of the equation for an RC circuit, with charge measured in units of C*emf, and time measured in units of RC.
Electricity Capacitor Physics
The underlying differential equation for this very minimal model is a non-dimensional version of the equation for an RC circuit, with charge measured in units of C*emf, and time measured in units of RC.
Charging a capacitor - Non-dimensional model
Alfredo Louro
Based on equations of motion in this paper Clone from original single pendulum .
Physics Motion
Based on equations of motion in this paper

Clone from original single pendulum.
Double Pendulum
AJP
2 months ago
​Força de arrasto linear referências: CREF - Velocidade das gotas de chuva. 27 de abril, 2020. É verdade que as gotas de chuva sempre caem com a mesma velocidade devido a gravidade?  Respondido por: Prof. Fernando Lang da Silveira - www.if.ufrgs.br/~lang/ https://www.if.ufrgs.br/novocref/?co
Queda Fall Physics Fisica
​Força de arrasto linear referências:

CREF - Velocidade das gotas de chuva. 27 de abril, 2020. É verdade que as gotas de chuva sempre caem com a mesma velocidade devido a gravidade? Respondido por: Prof. Fernando Lang da Silveira - www.if.ufrgs.br/~lang/

CREF - Velocidade de pedras de granizo no solo. 22 de outubro, 2015. Respondido por: Prof. Fernando Lang da Silveira - www.if.ufrgs.br/~lang/

 Silveira, F. (2015). Velocidade das pedras de granizo Hailstone speed. https://doi.org/10.13140/RG.2.2.33619.94245

https://www.researchgate.net/publication/339536656_Velocidade_das_pedras_de_granizo_Hailstone_speed


Aula 10 - Velocidade Terminal 

Aerodinâmica da Bola de Futebol: da Copa de 70 à Jabulani Carlos Eduardo Aguiar Programa de Pós-Graduação em Ensino de Física Instituto de Física - UFRJ

Número de Reynolds


Aula 5.2 - Origem física do arrasto linear e quadrático: o número de Reynolds. Mecânica Clássica UFF Prof. Jorge de Sá Martins 

Viscosidade, turbulência e tensão superficial - IF UFRJ
 
Sugestões de Modelagem (Leonardo):

Revista Brasileira de Ensino de Física, vol. 41, nº 3 (2019) É seguro atirar para cima? Uma analise da letalidade de projéteis subsônicos. Saulo Luis Lima da Silva, Herman Fialho Fumiã.

FRENAGEM DE UM PROJÉTIL EM UM MEIO FLUIDO: “QUAL SERIA A DISTÂNCIA, DENTRO DA ÁGUA, PERCORRIDA POR UM PROJÉTIL CALIBRE .50 COM MASSA DE 50 G E VELOCIDADE DE 850 M/S?”  Fernando Lang da Silveira Instituto de Física – UFRGS 


Fall with drag force
Milena Lauschner Lopes