Gravity & Orbits
Newtonian gravity β€” F = Gm₁mβ‚‚/rΒ²
Parameters
Gravity (G) 1.0
Trail length 80
Speed 1.0Γ—
Info

Click canvas to add a body. Drag to set initial velocity. Masses pulled toward center of gravity.

3
Bodies
β€”
Energy
0s
Sim Time
Wave Interference
Superposition of two point sources
Source 1
Frequency 3.0
Amplitude 1.0
Source 2
Frequency 3.0
Phase offset 0Β°
β€”
Nodes
β€”
Ξ» (px)
0
Cycles
Ideal Gas Simulation
Maxwell–Boltzmann kinetic molecular theory
Parameters
Temperature 300K
N particles 80
Wall elasticity 1.0
Color by
β€”
Pressure
β€”
Avg Speed
0
Collisions
Double Pendulum
Deterministic chaos β€” Lagrangian mechanics
Initial Conditions
θ₁ 120Β°
ΞΈβ‚‚ -20Β°
Physics
Gravity 9.8
Damping 0.00
β€”
KE
β€”
PE
0
Flips
Static Electricity
Coulomb's law β€” F = kq₁qβ‚‚/rΒ² | Left-click: +charge | Right-click: βˆ’charge
Charge Settings
Charge size 2q
Visualisation
Field lines
Potential map
Force vectors
Presets
2
Charges
0q
Net Charge
β€”
Max Force
Circuits & Cells
Ohm's law β€” V = IR
Battery
EMF Voltage 9V
Resistor
Resistance 220Ξ©
LED
Forward Voltage 2.0V
Presets
0mA
Current
0mW
Power (R)
0V
V across R
Plant Diversity Lab
Learn Β· Quiz Β· Grow Your Own Forest
0
Plants
0
Species (S)
0.00
H' Index
0
Badges
Microorganisms Lab
The invisible world β€” 5 major groups under the microscope
Bacteria
Viewing
1–10 ΞΌm
Size
Prokaryota
Group
22
Organisms