Inch-Ounce to Kilojoule
in-oz
kJ
Conversion History
| Conversion | Reuse | Delete |
|---|---|---|
| No conversion history to show. | ||
Quick Reference Table (Inch-Ounce to Kilojoule)
| Inch-Ounce (in-oz) | Kilojoule (kJ) |
|---|---|
| 1 | 0.00000706155181422604 |
| 10 | 0.00007061551814226043 |
| 20 | 0.00014123103628452086 |
| 40 | 0.00028246207256904172 |
| 80 | 0.00056492414513808344 |
| 100 | 0.0007061551814226043 |
| 160 | 0.00112984829027616688 |
About Inch-Ounce (in-oz)
The inch-ounce (in·oz) is a unit of very small torque equal to approximately 0.007062 joules — 1/16 of an inch-pound. It is used for servo motor torque ratings in model aircraft and small robotics, miniature instrument spring tensions, and the adjustment of precision optical and scientific instruments. Where inch-pounds are too coarse for the application, inch-ounces provide a finer unit without switching to SI.
A small servo motor for a model aircraft may be rated at 40–80 in·oz of torque. A clock escapement spring tension is typically a few in·oz.
About Kilojoule (kJ)
A kilojoule (kJ) equals 1,000 joules and is one of the most practical SI energy units for everyday human-scale work. Food energy is commonly labelled in kilojoules in Australia, the EU, and many other countries — the same information that the US labels in Calories. Physical exercise and metabolic rates are often quoted in kilojoules per hour. One kilojoule is roughly the energy released by a small firecracker, or the kinetic energy of a tennis ball traveling at 160 km/h.
A 100 mL glass of orange juice contains about 180 kJ of food energy. Running 1 km burns approximately 200–300 kJ depending on body weight.
Inch-Ounce – Frequently Asked Questions
What are inch-ounces used for in hobby servos and RC models?
RC servo motors are rated by torque in inch-ounces (or oz·in) because the forces involved are tiny. A standard micro servo produces 40–60 in·oz, which is enough to deflect a model aircraft aileron. High-torque digital servos for 1/10-scale RC cars reach 200–400 in·oz. The inch-ounce scale gives hobbyists whole-number specs that are easy to compare.
Why do high-end RC servos specify torque at different voltages (4.8V vs 6V)?
Servo motors produce more torque at higher voltage because the motor windings draw more current and generate a stronger magnetic field. A servo rated at 60 in·oz at 4.8 V might deliver 75 in·oz at 6 V — a 25% boost. RC pilots choose voltage based on the tradeoff: 6 V gives snappier response and more holding torque for aerobatics, but draws more current and generates more heat, reducing servo lifespan. Competition flyers often run 7.4 V for maximum performance, accepting shorter gear life.
Why use inch-ounces instead of newton-meters for small torque values?
Inch-ounces give convenient whole numbers for very small torques where newton-meters would be awkward decimals (e.g., 50 in·oz ≈ 0.353 N·m). The RC hobby, miniature clockwork, and precision instrument industries in the US developed around imperial units, and the convention persists even as SI gains ground. Many datasheets now list both units side by side.
What torque in inch-ounces does a clock or watch mechanism require?
A mechanical wristwatch mainspring delivers roughly 2–5 in·oz of torque. Larger mantel clocks may have mainspring torques of 10–30 in·oz. Escapement adjustments are even finer, sometimes below 1 in·oz. Horologists use inch-ounces (or gram-centimeters) because these scales match the delicate forces in timekeeping mechanisms.
How does inch-ounce torque relate to servo motor performance in robotics?
A servo's inch-ounce rating tells you the maximum force it can exert at one inch from the output shaft. A 100 in·oz servo can hold 100 ounces (6.25 lb) at 1 inch, or 50 ounces at 2 inches. Robotics designers use this to size servos for joint loads — a small robotic arm lifting 1 lb at 4 inches needs at least 64 in·oz, plus a safety margin of 50% or more.
Kilojoule – Frequently Asked Questions
Why do Australian food labels show kilojoules instead of calories?
Australia, New Zealand, and the EU mandate SI-based labeling, so food packages list energy in kilojoules. The US and Canada stuck with kilocalories (branded as "Calories"). To convert, divide kJ by 4.184 — a 500 kJ snack bar is about 120 kcal. Most Australian shoppers learn the kJ scale by familiarity rather than converting every time.
How many kilojoules does a person burn walking for 30 minutes?
A 70 kg person walking briskly at 5.5 km/h burns roughly 600–700 kJ in 30 minutes (about 150–170 kcal). That is roughly one banana or a small flat white. Running the same distance roughly triples the kilojoule burn because the body must lift itself off the ground with every stride.
What is the difference between kJ and kcal on a food label?
They measure the same thing — food energy — in different units. One kilocalorie (kcal) equals 4.184 kilojoules (kJ). European and Australian labels show both; US labels show only kcal (labelled "Calories"). A 2,000 kcal/day diet is 8,368 kJ/day. Nutritionists consider the two interchangeable for dietary guidance.
How much energy in kilojoules does a smartphone battery hold?
A typical smartphone battery rated at 15 Wh holds about 54 kJ. That is roughly the food energy in a single sugar cube (17 kJ per cube times three). A laptop battery at 60 Wh stores about 216 kJ, and a Tesla Model 3 battery pack at 60 kWh stores 216,000 kJ — enough dietary energy to feed a person for about 25 days.
Is a kilojoule a large or small amount of energy?
It is a middle-ground unit — too large for electronics (which use millijoules) and too small for household energy bills (which use megajoules or kWh). One kilojoule is the kinetic energy of a tennis ball served at about 160 km/h, the energy in a small sip of juice, or the heat generated by a 100 W bulb in ten seconds. It sits at the human snack-and-exercise scale.