Ampere to Franklin second
A
Fr.s
Conversion History
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Quick Reference Table (Ampere to Franklin second)
| Ampere (A) | Franklin second (Fr.s) |
|---|---|
| 0.5 | 1,498,962,268.42157174588032704958 |
| 1 | 2,997,924,536.84314349176065409917 |
| 5 | 14,989,622,684.21571745880327049584 |
| 10 | 29,979,245,368.43143491760654099167 |
| 13 | 38,973,018,978.96086539288850328917 |
| 20 | 59,958,490,736.86286983521308198334 |
| 32 | 95,933,585,178.98059173634093117335 |
| 100 | 299,792,453,684.31434917606540991671 |
About Ampere (A)
The ampere (A) is the SI base unit of electric current, one of the seven fundamental units in the International System. Since the 2019 SI redefinition, one ampere is exactly the flow of 1/1.602176634×10⁻¹⁹ elementary charges per second, fixing the elementary charge precisely. In practice, a 100 W bulb at 240 V draws about 0.4 A; a domestic kettle draws 8–13 A; household ring circuits are protected at 20–32 A; car starter motors demand brief surges of 100–200 A. The ampere defines related units: one volt across one ohm yields one ampere (Ohm s law), and one ampere for one second transfers one coulomb of charge.
A smartphone fast charger delivers 2–5 A. A household circuit breaker protects wiring rated at 10–32 A.
Etymology: Named after André-Marie Ampère (1775–1836), French physicist and mathematician who formulated Ampère s circuital law relating magnetic fields to the electric currents that produce them. The ampere was adopted as a practical electrical unit at the International Electrical Congress in 1881.
About Franklin second (Fr.s)
The franklin per second (Fr/s) equals approximately 3.335641×10⁻¹⁰ amperes. The franklin (Fr), also called the statcoulomb, is the CGS-ESU unit of electric charge; one franklin per second of charge flow constitutes one statampere of current. The conversion factor arises from c/10 in CGS (where c ≈ 3×10¹⁰ cm/s), linking the ESU and SI charge systems. The franklin itself honors Benjamin Franklin, whose experiments established the convention of positive and negative electric charge. The unit appears in older electrostatics and radiation dosimetry literature and is otherwise of historical interest only.
1 Fr/s ≈ 3.336×10⁻¹⁰ A. One ampere of current corresponds to approximately 3×10⁹ franklin per second.
Ampere – Frequently Asked Questions
Why was the ampere redefined in 2019?
The old definition relied on a thought experiment — infinite parallel wires 1 meter apart — that was impossible to realize exactly in a lab. The 2019 redefinition fixed the elementary charge at exactly 1.602176634×10⁻¹⁹ coulombs, linking the ampere to a countable number of electrons per second and enabling more precise quantum-based measurements.
How many amps does a house use at peak?
A typical US home has a 200-amp service panel. Peak usage — oven, dryer, AC, and water heater all running — might hit 80–150 A across all circuits combined. The 200 A main breaker protects the service entrance cable. European homes typically have 32–63 A single-phase service at 230 V, delivering equivalent power.
Why do electricians say "it is the amps that kill you, not the volts"?
Current through the heart causes fibrillation and death — as little as 0.1 A at 50/60 Hz. But voltage drives that current through your body's resistance (~1,000–100,000 ohms depending on conditions). So you need enough voltage to push lethal current through skin resistance. Both matter; the saying is a simplification.
What happens inside a circuit breaker the instant current exceeds its rating?
A thermal-magnetic breaker has two trip mechanisms. For sustained overloads (e.g., 20 A on a 15 A breaker), a bimetallic strip slowly heats and bends until it releases the latch — taking seconds to minutes depending on the overload. For short circuits (hundreds of amps), an electromagnet yanks the latch open in milliseconds. The contacts separate and an arc forms; arc chutes — stacked steel plates — split the arc into segments, cool it, and extinguish it within one AC cycle (16–20 ms). Modern breakers can interrupt 10,000–65,000 A fault currents.
How does a clamp meter measure amps without touching the wire?
A clamp meter wraps a magnetic core around a current-carrying conductor. AC current creates an alternating magnetic field that induces a proportional voltage in the clamp's pickup coil. Hall-effect clamp meters can also measure DC. No electrical contact needed — you just close the jaws around the insulated wire.
Franklin second – Frequently Asked Questions
Who was Benjamin Franklin and why is a charge unit named after him?
Franklin (1706–1790) was the American polymath who proved lightning is electrical with his famous kite experiment in 1752. He introduced the convention of "positive" and "negative" charge that we still use today. He arbitrarily assigned positive to the charge on glass rubbed with silk — which turned out to be a deficit of electrons, giving us the unfortunate convention that current flows opposite to electron motion.
Why is the franklin still referenced in the definition of the roentgen radiation unit?
The roentgen (R) was defined in 1928 as the radiation exposure producing 1 ESU of charge (1 franklin ≈ 3.336 × 10⁻¹⁰ C) per cm³ of dry air at STP. This CGS-era definition stuck because radiation safety regulations were already built around it. Even though the SI gray replaced the roentgen for dosimetry, the roentgen — and its franklin-based definition — persists in US regulatory and medical imaging contexts.
Why does the franklin appear in radiation dosimetry?
The legacy unit of radiation exposure, the roentgen (R), is defined as the amount of X-ray or gamma radiation that produces 1 esu of charge (1 franklin) per cubic centimeter of dry air at STP. This definition dates from the 1920s when CGS-ESU was standard. Modern dosimetry uses grays and sieverts, but the roentgen and its franklin-based definition persist in some medical and regulatory contexts.
How does franklin per second compare to everyday currents?
One Fr/s is about 0.33 nanoamperes — less current than a sleeping microcontroller draws. To equal the 1 A flowing through a phone charger cable, you would need about 3 billion franklins per second. The unit is spectacularly impractical for anything beyond electrostatics calculations.
Did Benjamin Franklin actually get the sign of electric charge wrong?
Sort of. He labelled the charge on glass rubbed with silk as "positive," not knowing it was caused by removing electrons. When Thomson discovered the electron in 1897, it turned out electrons carry what Franklin called negative charge. So conventional current flows from + to −, opposite to actual electron flow. Engineers and physicists have lived with this "mistake" for over 250 years.