Electricity is energy. Only matter can have temperature.
ONLY VIA THE ENERGY EQUATION.
Heat is not really conducted. Light is being conducted which produces Heat.
Light x Heat = Heat Energy
m/Z x A^2Z^3 = m(AZ)^2
And the conduction of Electricity produces Heat Energy m(AZ)^2
EinsteinGravitydotcom
There are many ways that heat can effect the flow of electricity. Heat increases the speed of electricity for example.
Depends on the material you're talking about. For metals, conductivity is inversely proportional to temperature. For semi-metals, conductivity is directly proportional to temperature.
when electricity is created the temperature of heat rises
There is no direct relationship between resistance and temperature. It is resistivity that is affected by temperature and, of, resistance depends on resistivity.
electrical energy produces heat energy
The base of the cloud occurs at the dewpoint temperature of the airmass. See: http://www.csgnetwork.com/estcloudbasecalc.html
resistance is measured in 'ohms'. A thermistor basically tells u how temperature affects resistance in a circuit, generally the higher the temperature (degrees) the less resistance
The factors that determine resistance are thickness, length, temperature, and the conductivity of the resistance of an object
the relation is that both helps in our daily life
Reduce the resistance:-- Use a shorter piece of wire.-- Use thicker wire.-- Cool the wire.Increase the resistance:-- Use a longer piece of wire.-- Use thinner wire.-- File a nick in the piece of wire you have.-- Stretch the wire.-- Heat the wire.
Temperature has a positive relation on resistance. This is because as the temperature gets higher, the molecules in the surface move more, which will cause more resistance since the molecules will be moving and bumping into things.
Both are same
I think there is no relation between sound and temperature. But velocity of sound is found to be proportional to the square root of temperature of the medium (air)
ghandi's entire ethos was about passive resistance
ohm
• ntc 'negative temperature coefficient': its resistance decreases as the temperature increases• ptc 'positive temperature coefficient': its resistance increases as the temperature increases
If you are referring to a Pt100, the resistance at 0°C is 100 ohm. At 100°C it is 138.5 ohm. In between the relation is not a linear one, and there is no formula, other than a polynome, to describe the relation. Look at http://www.jensenelectric.dk/extern/pt100din.htm for more information.
inversly proportional
Resistivity R is the inverse of conductivity G, R=1/G.
Such thermometers are based on the fact that the liquid expands when the temperature increases. That's what the thermometers measure.
There is NO relation at all.
There is none.