Standard
Advanced
ZPE
⚡ Sources
Battery
9V DC
AC Source
120V 60Hz
Signal Gen
5V 1kHz
Ground
0V Ref
🔧 Passive
Resistor
1kΩ
Capacitor
100µF
Inductor
10mH
Pot
10kΩ
Thermistor
10kΩ NTC
💡 Output
LED
2V Red
Bulb
60W
DC Motor
12V
Buzzer
5V
Speaker
8Ω
🔀 Control
Switch
SPST
Push Button
Momentary
Diode
0.7V
Zener
5.1V
Fuse
1A
Relay
12V
🔌 Semiconductors
NPN
β=100
PNP
β=100
N-MOSFET
10A
Op-Amp
100k
555 Timer
IC
V-Reg
5V
P-MOSFET
10A
N-JFET
10mA
P-JFET
10mA
IGBT
20A
Schottky
Vf≈0.25V
Photodiode
0.5 W/m²
I Source
10mA
📏 Measurement
Voltmeter
V
Ammeter
A
Wattmeter
W
Scope Probe
Waveform
Wire
Connector
🔄 Transformers
Transformer
100:1000 turns
Toroid
500mH
⚡ High Voltage
HV Capacitor
1nF 40kV
Leyden Jar
2nF
Spark Gap
15kV
SCR
25A
📡 RF / Signal
RF Source
50V 1MHz
Crystal Osc
32.768kHz
Varactor
10nF
Reed Switch
Magnetic
🔬 Analysis
EM Probe
Field sensor
Spectrum
FFT analyzer
⚛ Zero-Point Energy Research
Components for ZPE, Tesla, Hutchison, Bedini, Don Smith, and advanced electromagnetic experiments.
⚡ Tesla / Coils
Tesla Primary
100µH
Tesla Secondary
25mH
Top Load
20cm sphere
Bifilar Coil
100mH
Caduceus Coil
500mH
⚛ ZPE / Quantum
Casimir Plates
100nm gap
Crystal Cell
400mV
Schumann Ant.
7.83Hz n=1
Drag components here to build your circuit
W Wire Del Delete R Rotate Space Simulate
Try the ZPE tab for Tesla coils & Hutchison experiments
W Wire Del Delete R Rotate Space Simulate
Try the ZPE tab for Tesla coils & Hutchison experiments
Sim
Scope
Bode
Formulas
Circuits
📊 Simulation
0.00
Volts
0.00
Amps
0.00
Watts
0.00
Ohms
—
Freq (Hz)
—
Phase °
—
f₀ Res
—
Q Factor
📋 Circuit
Components
0
Wires
0
Nodes
0
Status
Ready
⚡ Ecosystem Energy
Your Energy
0 eV
Circuits
0
Pool
4,013 GSM
Every circuit charges the battery. GSM →
📈 Oscilloscope
Channels
CH1 Voltage
—
CH2 Current
—
Frequency
—
Period
—
📉 Bode Plot
━━ Magnitude (dB)
╶╶ Phase (deg)
╶╶ −3dB line
Bode Analysis
Cutoff (-3dB)
—
DC Gain
—
Phase Margin
—
Type
—
Bode plot shows frequency response of your circuit (requires R, C and/or L components + AC source). Run simulation to update.
📐 Active Formulas
Run simulation to see formulas
📖 Reference
Ohm's Law: V = IR
Resonance: f₀ = 1/(2π√LC)
Impedance: Z = √(R² + (XL−XC)²)
Q Factor: Q = (1/R)√(L/C)
Tesla: Vout ≈ Vin√(Cp/Cs)
Casimir: F = −π²ℏcA/(240d⁴)
ZPE: E₀ = ½ℏω
Schumann: fn = (c/2πR)√(n(n+1))
Resonance: f₀ = 1/(2π√LC)
Impedance: Z = √(R² + (XL−XC)²)
Q Factor: Q = (1/R)√(L/C)
Tesla: Vout ≈ Vin√(Cp/Cs)
Casimir: F = −π²ℏcA/(240d⁴)
ZPE: E₀ = ½ℏω
Schumann: fn = (c/2πR)√(n(n+1))
🔢 Physics Constants
c = 2.998 × 10⁸ m/s
ℏ = 1.055 × 10⁻³⁴ J·s
e = 1.602 × 10⁻¹⁹ C
µ₀ = 1.257 × 10⁻⁶ H/m
ε₀ = 8.854 × 10⁻¹² F/m
kB = 1.381 × 10⁻²³ J/K
ℏ = 1.055 × 10⁻³⁴ J·s
e = 1.602 × 10⁻¹⁹ C
µ₀ = 1.257 × 10⁻⁶ H/m
ε₀ = 8.854 × 10⁻¹² F/m
kB = 1.381 × 10⁻²³ J/K
🔬 Standard Circuits
LED + Resistor
Basic current limiting
Voltage Divider
Two resistors, split voltage
RC Low-Pass Filter
Resistor + capacitor filter
Transistor Switch
NPN switching circuit
Full Bridge Rectifier
AC to DC conversion
555 Timer Blinker
Astable oscillator
Joule Thief
Voltage booster from dead battery
⚛ ZPE / Tesla Research
🎁 Free API — 2026
Founders Free Tier
10,000 API requests/day
Valid through Dec 31, 2026
Get Free API Key →
10,000 API requests/day
Valid through Dec 31, 2026
Someone from somewhere
just launched website.com
Just now