Inch-Pound to Therm (US)
in·lb
thm-us
Conversion History
| Conversion | Reuse | Delete |
|---|---|---|
1 in·lb (Inch-Pound) → 1.0711452462e-9 thm-us (Therm (US)) Just now |
Quick Reference Table (Inch-Pound to Therm (US))
| Inch-Pound (in·lb) | Therm (US) (thm-us) |
|---|---|
| 1 | 0.0000000010711452462 |
| 2 | 0.00000000214229049241 |
| 5 | 0.00000000535572623102 |
| 12 | 0.00000001285374295444 |
| 25 | 0.00000002677863115508 |
| 50 | 0.00000005355726231016 |
| 100 | 0.00000010711452462032 |
About Inch-Pound (in·lb)
The inch-pound (in·lb) is a unit of torque and small-scale energy used in US customary mechanical engineering, equal to approximately 0.11299 joules. It represents the work done by one pound-force over a distance of one inch, or equivalently, a torque of one pound-force acting at a radius of one inch. Small fastener torque specifications, precision instrument settings, and electronic component assembly instructions routinely use inch-pounds. It is 1/12 of a foot-pound.
A laptop hinge torque specification is often 2–5 in·lb. Small machine screws in electronics are typically torqued to 1–4 in·lb.
About Therm (US) (thm-us)
The therm (US) is defined as exactly 105,480,400 joules — very slightly less than the EC therm (difference of about 25,200 J). It is used in US natural gas markets and utility billing, equivalent to 100,000 BTU. Natural gas prices are often quoted in dollars per therm for residential customers. One therm is roughly the energy in 100 cubic feet of natural gas (at standard pressure and temperature) or 29.3 kWh of electricity.
US natural gas prices typically range from $0.80–$2.50 per therm. A gas furnace running for one hour at full capacity burns approximately 1 therm.
Inch-Pound – Frequently Asked Questions
Why are small fastener torque specs given in inch-pounds instead of foot-pounds?
Inch-pounds provide finer resolution for small fasteners where foot-pound values would be fractions (e.g., 3 in·lb vs 0.25 ft·lb). Electronics assembly, firearms scope mounting, and bicycle component installation all specify inch-pounds because over-torquing a small screw by even one foot-pound can strip threads or crack housings.
What happens when you over-torque a small fastener by just 2 inch-pounds?
On an M3 screw into aluminum (spec: 5 in·lb), exceeding by 2 in·lb — a 40% overload — can strip the threads or crack a thin boss. Small fasteners have almost no safety margin because the thread engagement area is tiny and the materials (plastic, aluminum, brass) are soft. This is why electronics repair shops use beam-type or preset click torque drivers accurate to ±0.5 in·lb, and why aerospace assembly procedures treat inch-pound specs as hard limits, not suggestions.
What torque in inch-pounds do laptop and electronics screws need?
Laptop hinge screws typically require 2–5 in·lb, hard drive mounting screws 2–4 in·lb, and motherboard standoff screws 5–8 in·lb. Going beyond the spec risks cracking plastic bosses or stripping soft aluminum threads. A precision bit driver with a torque limiter is essential for electronics repair work.
What is the difference between inch-pounds as torque and inch-pounds as energy?
Dimensionally they are identical — force times distance — but context differs. As torque, 1 in·lb means one pound-force applied at one inch from a pivot. As energy, it means one pound-force pushing through one inch of linear displacement (0.11299 J). In practice, inch-pounds almost always refer to torque in mechanical specifications.
Why do firearms manufacturers specify scope ring torque in inch-pounds?
Scope rings and bases use small screws that are easily damaged, and consistent clamping force is critical for zero retention under recoil. Typical specs are 15–25 in·lb for ring screws and 30–65 in·lb for base screws. Under-torquing lets the scope shift; over-torquing cracks the scope tube or strips the screw. A dedicated inch-pound torque wrench is considered essential kit for precision rifle setup.
Therm (US) – Frequently Asked Questions
How much does one therm of natural gas cost in the US?
Residential US natural gas prices typically range from $0.80 to $2.50 per therm depending on region, season, and utility. The wholesale Henry Hub benchmark translates to about $0.25 per therm at $2.50/MMBtu. Delivery charges, taxes, and utility markups roughly triple or quadruple the commodity cost by the time it reaches a home meter.
How many therms does a US household use per year?
The average US home using gas for heating consumes about 500–900 therms per year, depending on climate, insulation, and home size. Homes in mild climates like Southern California may use under 300 therms; homes in Minnesota or Wisconsin can exceed 1,200 therms. Gas water heaters alone account for roughly 150–250 therms per year.
What is the difference between a therm and an MMBtu?
One US therm equals exactly 100,000 BTU, while one MMBtu (million BTU) equals 1,000,000 BTU — so 1 MMBtu equals 10 therms. Wholesale gas markets and pipeline contracts use MMBtu; residential utility bills use therms. The two are straightforward to convert, but confusing them by a factor of ten is a common mistake in energy cost comparisons.
Why is US natural gas priced per therm at retail but per MMBtu at wholesale?
Retail billing in therms gives homeowners manageable numbers — a winter month might be 80–120 therms at $1–2 each. Wholesale pipeline contracts deal in millions of BTU (MMBtu) because the volumes are enormous and the industry standardized on BTU-based pricing in the early 20th century. One MMBtu equals 10 therms, so converting is simple. The Henry Hub benchmark price of $2.50/MMBtu translates to about $0.25/therm before delivery charges, taxes, and utility markup roughly quadruple it at the meter.
How many therms does a gas furnace use per hour?
A typical US residential furnace rated at 80,000–100,000 BTU/h uses about 0.8–1.0 therms per hour at full output. High-efficiency condensing furnaces (95%+ AFUE) extract more heat per therm, so they cycle less often. On a cold winter day, a furnace might run 8–12 hours total, consuming 6–10 therms. That translates to roughly $5–$25 per day depending on local gas prices.