The relationship between current temperature and location is influenced by several factors, including geographic coordinates, altitude, proximity to water bodies, and local climate patterns. For instance, areas near the equator typically experience warmer temperatures due to direct sunlight, while polar regions are colder. Additionally, urban areas may experience higher temperatures due to the urban heat island effect, while coastal regions often have milder temperatures due to the moderating influence of oceans. Overall, location plays a crucial role in determining the prevailing temperature at any given time.
there is no relationship
When the temperature is increased, the speed also increases.
At constant temp.& pressure,on the same circuit,with potential difference unchanged,current reduces if resistance increases.(Ohm's law).
1.Bandgap is comparatively large hence suitable for low & high temp. 2.High melting point of si makes it stable over wide temp. 3.si is more freely available in nature. 4.leakage current less than ge.
In the cold winters, it can be about -20 - -25 degrees. But if it's not a cold winter, it can be anything between +5 - -15.
there is no relationship
When the temperature is increased, the speed also increases.
Depending where you move it to, you may not get a accurate reading.
It should be between #3 and #5 spark plugs.
Between #3 and #5 spark plug on the drivers side.
Usually on the driver side cylinder head. Between the front exhaust port and middle set.
52 degrees Celsius
sounds like your outside temp sensor is internally open, you will have to replace the sensor, its location depends on the model and year of your car, also the ac works in with the outside temp, if your sensor is faulty then the ac will not function properly,
The higher the temp, the higher the evaporation rate.
You can find the closest temp agency to you on a local website such as Whitepages or Yellow pages, or search for on closest to you, and find one closest to your location.
77
hi! no the current squared is directly proportional to the change in temp, Joules Law