# Working mass

Working mass is a mass against which a system operates in order to produce acceleration. All acceleration requires an exchange of momentum, which can be thought of as the "unit of movement". Momentum is related to mass and velocity, as given by the formula P = mv, where P is the momentum, m the mass, and v the velocity. The velocity of a body is easily changeable, but in most cases the mass is not, which makes it important. In rockets, the total velocity change can be calculated as follows:

[itex]v\,\Delta = u\,\ln(\frac{m + M}{M})[itex]

Where:

• v = ship velocity.
• u = exhaust velocity.
• M = ship mass, not including the fuel.
• m = total mass ejected from the ship (working mass).

The term working mass is used primarily in the aerospace field. In more "down to earth" examples the working mass is typically provided by the Earth, which contains so much momentum in comparison to most vehicles that the amount it gains or loses can be ignored. However in the case of an aircraft the working mass is the air, and in the case of a rocket, it is the rocket fuel itself. Most rocket engines use light-weight fuels (liquid hydrogen, oxygen, or kerosene) accelerated to super-sonic speeds. However, ion engines often use heavier elements like mercury as the reaction mass, accelerated to much higher speeds using electric fields.

In most cases the working mass is separate from the energy used to accelerate it. In a car the engine provides power to the wheels, which then accelerates the Earth backward to make the car move forward. This is not the case for most rockets however, where the rocket fuel is the working mass, as well as the energy source. This means that rockets stop accelerating as soon as they run out of fuel, regardless of other power sources they may have. This can be a problem for satellites that need to be repositioned often, as it limits their useful life. In general, rocket fuels can provide more energy than they can use, which leads to a number of techniques designed to provide external working mass in order to carry a smaller fuel load. These air-augmented rockets are only useful on rockets that travel through the atmosphere, and have not been used in service.

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