*: Signalman's badge, has three modes, a recording device, that doubles as a taser, and, in which form he uses the Smash Beam ( shoots a yellow beam at enemies in the knees to incapacitate them without using lethal force ), or Heat Beam ( shoots a red beam at the enemy ).

According to the Beast Wars show bible written by Bob Forward and Larry DiTillio Terrorsaur's weapons include Missile Launchers ( Wing Mounted ), Plasma Rifle ( hand-held ) and Heat Beam ( Eyes ).

For example, in her classic 1960 recording of " How High the Moon " live in Berlin, she quotes over a dozen songs, including " The Peanut Vendor ", " Heat Wave ", " A-Tisket, A-Tasket ", and " Smoke Gets in Your Eyes ".

" Open Your Eyes ", " Midnight Sun " ( featuring a strong vocal performance by Wetton ), and " The Heat Goes On " became concert staples.

** Writer and producer – from True Blue ( 1986 ): " Live to Tell " " La Isla Bonita ", " Where's the Party ", " White Heat ", " Love Makes the World Go Round "; from Who's That Girl ( 1987 ): " Who's That Girl ", " The Look of Love " ( 1987 ); from Like a Prayer ( 1989 ): " Like a Prayer ", " Cherish ", " Till Death Do Us Part ", " Promise to Try ", " Pray for Spanish Eyes ", " Act of Contrition ", " Dear Jessie ", " Oh Father "; from I'm Breathless ( 1990 ): " Hanky Panky ", " Cry Baby ", " He's a Man ", " Now I'm Following You " and " Something to Remember " ( which was also used as the title for the 1995 ballad compilation Something to Remember ); from With Honors ( 1994 ): " I'll Remember "; from Ray of Light ( 1998 ): " Frozen ", " Nothing Really Matters ", " Has to Be ", " Supernatural ", " Sky Fits Heaven ", " Skin "

Charnel ceased their operations in 1999 and was briefly resurrected in 2007 for the CDR releases of Mason Jones ' Unreleased Themes For Caged Heat 3000 and Numinous Eyes ' The Farthest Thing.

Bridges ' second single, " Body Heat ", was a rock song with strong electric guitar rhythms.

Heat bursts are also characterised by extremely dry air and are sometimes associated with very strong, even damaging, winds.

Features on many Roll Deep tracks like ' Celebrate ', ' Heat Up ' & ' Club 7 ' Has a deep voice and speaks in patois, although the accent is not as strong as Riko's.

* The Reverend Horton Heat, on their 1990 album Smoke ' Em If You Got ' Em, recorded " Marijuana ", which bears a strong resemblance in structure to " Tequila ".

He also published a treatise, in 1761, De Distributione Caloris per Tellurem ( On the Distribution of Heat in the Earth ), and he was the author of memoirs on different subjects in astronomy, mechanics, optics and pure mathematics, contained in the journals of the learned societies of St Petersburg and Berlin.

In 1865, the German physicist Rudolf Clausius, in his Mechanical Theory of Heat, suggested that the principles of thermochemistry, e. g. the heat evolved in combustion reactions, could be applied to the principles of thermodynamics.

* Heat capacities of the elements ( data page ) — heat capacity

Laboratory display of distillation: 1: A heating device 2: Still pot 3: Still head 4: Thermometer / Boiling point temperature 5: Condenser 6: Cooling water in 7: Cooling water out 8: Distillate / receiving flask 9: Vacuum / gas inlet 10: Still receiver 11: Heat control 12: Stirrer speed control 13: Stirrer / heat plate 14: Heating ( Oil / sand ) bath 15: Stirring means e. g. ( shown ), boiling chips or mechanical stirrer 16: Cooling bath.

Heat engines, including internal combustion engines and external combustion engines ( such as steam engines ) burn a fuel to create heat which is then used to create motion.

Efficiencies can be as high as 65 % when the fuel cell is paired with a turbine, and 85 % if heat is captured and used in a Combined Heat and Power ( CHP ) system.

* Heat exchanger, a device for heat transfer

Heat engines distinguish themselves from other types of engines by the fact that their efficiency is fundamentally limited by Carnot's theorem .< ref > Thermal physics: entropy and free energies, by Joon Chang Lee ( 2002 ), Appendix A, p. 183: " A heat engine absorbs energy from a heat source and then converts it into work for us.

Heat is typically introduced via steam running through fin / tube heat exchangers controlled by on / off pneumatic valves.

# Heat regulation: increase perfusion and heatloss, while constricted vessels greatly reduce cutaneous blood flow and conserve heat.

Heat rejection is kept low-mass using advanced heat pipe systems ( such as are now used in some laptop computers for cooling as well ).

# Heat flux, the rate of heat flow across a unit area ( J · m < sup >− 2 </ sup >· s < sup >− 1 </ sup >).

Heat is measured by monitoring the temperature difference between heat transfer fluid and the process fluid.

Heat is measured by monitoring the heat gained or lost by the heat transfer fluid.

Heat pumps may use the heat output of the refrigeration process, and also may be designed to be reversible, but are otherwise similar to refrigeration units.

It is possible to predict heat of formations for simple unstrained organic compounds with the Heat of formation group additivity method.

: For a table of volumetric heat capacities, see Heat capacity # Table of specific heat capacities.

Heat is mostly carried to the surface by thermal convection, although there are two thermal boundary layers-the core-mantle boundary and the lithosphere-in which heat is transported by conduction.

Heat pumps can extract heat from the air or suck heat from the ground.

Heat can be removed through radiation, convection, and by heat pump systems through a process called the refrigeration cycle.

The worst heat wave in recent European history was the European Heat Wave of 2003.

Heat storage, or thermal mass keeps the building warm when the sun can't heat it.

Heat of condensation ( work function ) plus kinetic energy of the electrons impinging on the anode.

* Power needed to operate ( Energy per time ; energy per byte accessed ), Energy efficiency, Heat to dissipate.

* Power needed to operate ( Energy per time ; energy per byte accessed ), Energy efficiency, Heat to dissipate.

Heat energy is released every time they do so ; therefore these alloys have possibilities in energy conservation systems.

Heat energy, a result of this process, is used to contribute to the overall heating of the campus to increase its overall energy efficiency.

Heat pumps can move thermal energy in a direction which is opposite to the direction of spontaneous heat flow.

Heat pumps are used to provide heating because less high-grade ( i. e., low-entropy ) energy is required for their operation, than appears in the released heat.

Heat pumps can move thermal energy against a thermal gradient at the expense of an external source of power, usually a mechanical compressor.

" Heat " is not conserved in this process and it is augmented by the high grade energy expended.

Heat dissipation is an issue as eventually all traction energy consumed by the train — except the electric energy regenerated back into the substation during electrodynamic braking — will end up in losses ( mostly heat ).

Heat engines are able to convert thermal energy in the form of a temperature gradient between a hot source and a cold sink into other desirable mechanical work.

Heat pumps take mechanical work to regenerate thermal energy in a temperature gradient.

Heat is thermal energy in the process of transfer between a system and its surroundings or between two systems with a different temperature.

Heat supplied is then defined as the residual change in internal energy after work has been taken into account, in a non-adiabatic process.

A respected modern author states the first law of thermodynamics as " Heat is a form of energy ", which explicitly mentions neither internal energy nor adiabatic work.

Heat is defined as energy transferred by thermal contact with a reservoir, which has a temperature, and is generally so large that addition and removal of heat do not alter its temperature.

Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy and heat between physical systems.

Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes.

Heat conduction, also called diffusion, is the direct microscopic exchange of kinetic energy of particles through the boundary between two systems.

Heat is defined in physics as the transfer of thermal energy across a well-defined boundary around a thermodynamic system.