It really depends on the type of energy. If you pull or push, you get the work (the energy transferred) by multiplying the force (in newtons) by the distance (in meters). (If the force is not in the same distance as the movement, the dot product must be used - equivalent to including the cosine of the angle as a factor. If the force is not constant, integration must be used.)
For potential energy, this results in a formula of PE = weight x height, which is equal to mgh (mass x gravity x height).
Por kinetic energy, the formula is KE = (1/2)mv2.
For other types of energy, other measurements and calculations are required.
It really depends on the type of energy. If you pull or push, you get the work (the energy transferred) by multiplying the force (in newtons) by the distance (in meters). (If the force is not in the same distance as the movement, the dot product must be used - equivalent to including the cosine of the angle as a factor. If the force is not constant, integration must be used.)
For potential energy, this results in a formula of PE = weight x height, which is equal to mgh (mass x gravity x height).
Por kinetic energy, the formula is KE = (1/2)mv2.
For other types of energy, other measurements and calculations are required.
It really depends on the type of energy. If you pull or push, you get the work (the energy transferred) by multiplying the force (in newtons) by the distance (in meters). (If the force is not in the same distance as the movement, the dot product must be used - equivalent to including the cosine of the angle as a factor. If the force is not constant, integration must be used.)
For potential energy, this results in a formula of PE = weight x height, which is equal to mgh (mass x gravity x height).
Por kinetic energy, the formula is KE = (1/2)mv2.
For other types of energy, other measurements and calculations are required.
It really depends on the type of energy. If you pull or push, you get the work (the energy transferred) by multiplying the force (in newtons) by the distance (in meters). (If the force is not in the same distance as the movement, the dot product must be used - equivalent to including the cosine of the angle as a factor. If the force is not constant, integration must be used.)
For potential energy, this results in a formula of PE = weight x height, which is equal to mgh (mass x gravity x height).
Por kinetic energy, the formula is KE = (1/2)mv2.
For other types of energy, other measurements and calculations are required.
You can multiply newtons x meters .
You can multiply kilograms x meters3 x second-2.
You can multiply volts x amperes x seconds.
You can multiply watts x seconds.
You can divide kilowatt-hours by 3,600,000 .
You could even multiply feet x pounds and then divide that by 1.3558 .
It really depends on the type of energy. If you pull or push, you get the work (the energy transferred) by multiplying the force (in newtons) by the distance (in meters). (If the force is not in the same distance as the movement, the dot product must be used - equivalent to including the cosine of the angle as a factor. If the force is not constant, integration must be used.)
For potential energy, this results in a formula of PE = weight x height, which is equal to mgh (mass x gravity x height).
Por kinetic energy, the formula is KE = (1/2)mv2.
For other types of energy, other measurements and calculations are required.
A Joule is a unit of energy/work : a force acting through a distance. Specifically, a Joule is the amount of work done by a force of one Newton moving an object one meter.
A Newton is a unit of force, and F = ma. It's the force required to accelerate a mass of one kilogram by one meter per second per second.
All told, a Joule expressed in SI base units is 1 kilogram meter squared per second squared.
The unit for work is joules. It is not clear what you want to convert.
Since webers and joules are used to measure very different things, there is no direct conversion.
Work = mass x acceleration x distance.
If mass is in Kilograms, acceleration is in meters/second2, and distance is in meters than Work will be in joules.
Also E=I2R
You don't. Joule is a unit of energy; you simply can't compare it with time.
The formula is W=f x d.
No, to convert from cal. to joules 1 cal. = 4.18400 joules , then 1KCal = (4.18400 *10^-3) joules so 3.25 kcal doesn't equal 3.25 Joules
Joules are the metric units used to measure energy. When you are working with any form of energy you state them in joules.
It's impossible. Nanometers are units of distance and Joules are units of energy.
Voltage is electrical pressure and Joules is a power rating so other info is needed
1 erg
56 kilo joules = 56,000 joules
To convert from kilo joules to joules you have divide by 1000 as 1 kilo joule is equal to 1000 joules. E.g. 2 kilo joules equals 2000 joules.
A petajoule is 1015 joules (Quadrillion joules)
4.18400 joules = 1 calorie, so 12.552 joules = 3 calories
148 calories is 619.6 joules. Since one calorie = 4.18 joules then you multiply that number by 148 and you get 618.64 joules (619 rounded)
1 calorie = 4.1858 joules 1 joule = 0.2389029576186153 calories As an example, convert 5 calories to joules. 1 calorie = 4.1858 joules, therefore 5 calories = 4.1858 x 5 joules = 20.929 joules. So when converting calories to joules, multiply the number of calories by 4.1858 to give you the number of joules.
joules are the amount of energy
There are 704 calories in 704 calories. If you intended to ask about joules, then 704 calories is about 2,947.51 joules.
A calorie is about 4.2 joules, therefore a kilocalorie is about 4200 joules. You can multiply by this number.
162 calories is 678.2616 joules. For most purposes you don't need such accuracy, remember one calorie = 4.2 Joules. This is called the mechanical equivalent of heat, and is a useful number to memorize.
To convert from kilojoules to joules you have divide by 1000. meaning 1 kilo joule is equal to 1000 joules.
BTU x 1,055.056 = joules