Use this free online force converter to change joules per meter into teranewtons instantly. Type in the joules per meter value, and the equivalent teranewtons is calculated for you in real time.
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Enter your inputs, and the result is calculated in real-time.
Joules per Meter
Teranewtons
How to use this Joules per Meter to Teranewtons Converter 🤔
Follow these steps to convert given Joules per Meter value from Joules per Meter units to Teranewtons units.
Enter the input Joules per Meter value in the text field.
The given Joules per Meter is converted to Teranewtons in realtime ⌚ using the formula, and displayed under the Teranewtons label.
You may copy the resulting Teranewtons value using the Copy button.
Formula
To convert given force from Joules per Meter to Teranewtons, use the following formula.
Teranewtons = Joules per Meter * 1e-12
Calculation
Calculation will be done after you enter a valid input.
Joules per Meter
Joule per meter (J/m) is a unit that represents energy per unit length. It is often used in the context of surface tension, where it describes the energy required to increase the surface area of a liquid.
Teranewtons
A teranewton (TN) is 1012 newtons, a very large force typically used to describe large-scale astronomical phenomena or the massive forces involved in planetary activities. It’s not commonly used in everyday applications but is useful for conveying the magnitude of cosmic events.
{
"conversion": "joule-per-meter-teranewton",
"x_slug": "joule-per-meter",
"y_slug": "teranewton",
"x": "J/m",
"y": "TN",
"x_desc": "Joules per Meter",
"y_desc": "Teranewtons",
"category": "Force",
"symbol": "m",
"formula": "x * 1e-12",
"examples": "<div class=\"example\">\n <div class=\"example_head\"><span class=\"example_n\">1</span>\n <h3 class=\"question\">Consider a force applied over a distance of 500 meters using an energy of 1,000 joules per meter.<br>Convert this force from joule-per-meter to Teranewtons.</h3></div>\n <h4 class=\"answer\">Answer:</h4>\n <p><strong>Given:</strong></p>\n <p>The force of force over distance in joules per meter is:</p>\n <p class=\"step\"><span>Force<sub>(Joules per Meter)</sub></span> = 1000</p>\n <p><strong>Formula:</strong></p>\n <p>The formula to convert force from joules per meter to teranewtons is:</p>\n <p class=\"formula step\"><span>Force<sub>(Teranewtons)</sub></span> = <span>Force<sub>(Joules per Meter)</sub></span> × 1e-12</p>\n <p><strong>Substitution:</strong></p>\n <p>Substitute given weight of force over distance, <strong>Force<sub>(Joules per Meter)</sub> = 1000</strong> in the above formula.</p>\n <p class=\"step\"><span>Force<sub>(Teranewtons)</sub></span> = <span>1000</span> × 1e-12</p>\n <p class=\"step\"><span>Force<sub>(Teranewtons)</sub></span> = 1e-9</p>\n <p><strong>Final Answer:</strong></p>\n <p>Therefore, <strong>1000 J/m</strong> is equal to <strong>1e-9 TN</strong>.</p>\n <p>The force of force over distance is <strong>1e-9 TN</strong>, in teranewtons.</p>\n </div>\n <div class=\"example\">\n <div class=\"example_head\"><span class=\"example_n\">2</span>\n <h3 class=\"question\">Consider an engine producing 2,000 joules per meter to move a vehicle.<br>Convert this force from joule-per-meter to Teranewtons.</h3></div>\n <h4 class=\"answer\">Answer:</h4>\n <p><strong>Given:</strong></p>\n <p>The force of engine to move vehicle in joules per meter is:</p>\n <p class=\"step\"><span>Force<sub>(Joules per Meter)</sub></span> = 2000</p>\n <p><strong>Formula:</strong></p>\n <p>The formula to convert force from joules per meter to teranewtons is:</p>\n <p class=\"formula step\"><span>Force<sub>(Teranewtons)</sub></span> = <span>Force<sub>(Joules per Meter)</sub></span> × 1e-12</p>\n <p><strong>Substitution:</strong></p>\n <p>Substitute given weight of engine to move vehicle, <strong>Force<sub>(Joules per Meter)</sub> = 2000</strong> in the above formula.</p>\n <p class=\"step\"><span>Force<sub>(Teranewtons)</sub></span> = <span>2000</span> × 1e-12</p>\n <p class=\"step\"><span>Force<sub>(Teranewtons)</sub></span> = 2e-9</p>\n <p><strong>Final Answer:</strong></p>\n <p>Therefore, <strong>2000 J/m</strong> is equal to <strong>2e-9 TN</strong>.</p>\n <p>The force of engine to move vehicle is <strong>2e-9 TN</strong>, in teranewtons.</p>\n </div>\n ",
"units": [
[
"newton",
"Newtons",
"N"
],
[
"kilonewton",
"Kilonewtons",
"kN"
],
[
"gram-force",
"Gram-Force",
"gf"
],
[
"kilogram-force",
"Kilogram-Force",
"kgf"
],
[
"ton-force",
"Metric Ton-Force",
"tf"
],
[
"exanewton",
"Exanewtons",
"EN"
],
[
"petanewton",
"Petanewtons",
"PT"
],
[
"teranewton",
"Teranewtons",
"TN"
],
[
"giganewton",
"Giganewtons",
"GN"
],
[
"meganewton",
"Meganewtons",
"MN"
],
[
"hectonewton",
"Hectonewtons",
"hN"
],
[
"dekanewton",
"Dekanewtons",
"daN"
],
[
"decinewton",
"Decinewtons",
"dN"
],
[
"centinewton",
"Centinewtons",
"cN"
],
[
"millinewton",
"Millinewtons",
"mN"
],
[
"micronewton",
"Micronewtons",
"µN"
],
[
"nanonewton",
"Nanonewtons",
"nN"
],
[
"piconewton",
"Piconewtons",
"pN"
],
[
"femtonewton",
"Femtonewtons",
"fN"
],
[
"attonewton",
"Attonewtons",
"aN"
],
[
"dyne",
"Dynes",
"dyn"
],
[
"joule-per-meter",
"Joules per Meter",
"J/m"
],
[
"joule-per-centimeter",
"Joules per Centimeter",
"J/cm"
],
[
"ton-force-short",
"Short Ton-Force",
"short tonf"
],
[
"to-force-long",
"Long Ton-Force (UK)",
"tonf (UK)"
],
[
"kip-force",
"Kip-Force",
"kipf"
],
[
"kilopound-force",
"Kilopound-Force",
"kipf"
],
[
"pound-force",
"Pound-Force",
"lbf"
],
[
"ounce-force",
"Ounce-Force",
"ozf"
],
[
"poundal",
"Poundals",
"pdl"
],
[
"pound-foot-per-square-second",
"Pound Foot per Square Second",
"lbf·ft/s²"
],
[
"pond",
"Ponds",
"p"
],
[
"kilopond",
"Kiloponds",
"kp"
]
],
"y_long_desc": "A teranewton (TN) is 10<sup>12</sup> newtons, a very large force typically used to describe large-scale astronomical phenomena or the massive forces involved in planetary activities. It’s not commonly used in everyday applications but is useful for conveying the magnitude of cosmic events.",
"x_long_desc": "Joule per meter (J/m) is a unit that represents energy per unit length. It is often used in the context of surface tension, where it describes the energy required to increase the surface area of a liquid."
}
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