427 degrees Celsius = 800.6 degrees Fahrenheit.
427 degrees Celsius is equal to 800.6 degrees Fahrenheit. This temperature is quite high and falls within the range used for baking and cooking food in ovens.
Butane burns with air at 1970 degrees Celsius. Propane burns with air at 1980 decrees Celsius. Burning with an oxygen mix increases the temperature of a propane flame to 2820 degrees Celsius. However, keep in mind that if you are brazing/soldering, the object you are heating dissipates heat. Therefore, the temperature you can heat the object will be significantly less.
To find the concentration of silver ions in the final solution, you must first identify the limiting reactant based on the stoichiometry of the reaction. Once you determine the limiting reactant, calculate the amount of silver ions present in the solution by multiplying the initial concentration of silver ion from the limiting reactant by the volume of the limiting reactant used.
Performance standards on non-wood bats have been tightened as they are governed by the BESR (Ball Exit Speed Ratio) standard. In layman's terms, the speed of the batted balls off metal/non-wood bats is comparable to that of the best major league wood bat.This standard has been adopted by the NCAA and the National Federation of State High School Associations.Bats used at the Little League level are governed by the BPF Standard which dictates that the rebound effect of the batted ball off non-wood bats cannot exceed the rebound effect of the batted ball off a wood bat. These standards (both BESR and BPF) are presented to bat makers which they must follow.Mike May Don't Take My Bat Away (www.dtmba.com) 561-427-0657 (office)
The standard molar enthalpy change of bond dissociation (DHd° is the energy change when 1 mole of bonds is broken, the molecules and resulting fragments being in the gaseous state at 298K and a pressure of 100kPa. IntroductionThis energy refers to a specific bond in a molecule, but if a molecule has 4 of the same bond (eg the C-H bonds in methane), then different dissociation energies can occur.CH4(g) => CH3(g) + H(g) DHd° = +427 kJ mol-1CH3(g) => CH2(g) + H(g) DHd° = +371 kJ mol-1So it is much more useful to know the average amount of energy needed to break a particular bond. In this case, the process of breaking all the bonds in methane ending up with gaseous atoms.So this process could be written as:The enthalpy change for this reaction is +1646 kJ mol-1 , so the average bond enthalpy is +1646 / 4 = +412 kJ mol-1 . They can be looked up in data tables.It is important to stress that these are mean or average bond enthalpies. If Average bond enthalpies are used to calculate an enthalpy change, the answer will be slightly out compared to a result obtained by other methods.-----------------------------------------------------------------------------------------------------So if you are talking about the Mastering chem question, here is the answer.dissociation energy of C-H bond is 410 kJ/mol and there are 4 mols of C-H bond in 1 mol of CH4so 410kJ/mol *4 = 1640 KJ/mol
-255 degrees Celsius = -427 degrees Fahrenheit
800.6 F
427 degrees Celsius is equal to 800.6 degrees Fahrenheit. This temperature is quite high and falls within the range used for baking and cooking food in ovens.
700 kelvin = 426.85 degrees Celsius
Mercury has a wide temperature range due to its close proximity to the Sun, with daytime highs reaching up to 800 degrees Fahrenheit (427 degrees Celsius) and nighttime lows dropping to around -290 degrees Fahrenheit (-179 degrees Celsius).
Gunpowder will ignite somewhere between 300 to 350° C
Mercury's surface temperature varies greatly depending on its location on the planet. It can range from about 800 degrees Fahrenheit (430 degrees Celsius) on the side facing the Sun to -290 degrees Fahrenheit (-180 degrees Celsius) on the side facing away from the Sun.
427 degrees Celsius.:)
Start by taking the number in Celsius and multiply it by 9. Then divide that number by 5, and then add 32. This is how you convert Celsius to Fahrenheit or use the equation F = (9/5)C + 32In this case, the answer is about 968 degrees Fahrenheit.
Mercury has a wide range of surface temperatures, with daytime temperatures reaching up to 800 degrees Fahrenheit (427 degrees Celsius) and dropping to -290 degrees Fahrenheit (-180 degrees Celsius) at night due to lack of atmosphere to retain heat.
Venus has a dense carbon dioxide atmosphere with surface temperatures that can exceed 800 degrees Fahrenheit (427 degrees Celsius).
Mercury's temperature can range from about -290 degrees Fahrenheit (-179 degrees Celsius) at night to around 800 degrees Fahrenheit (427 degrees Celsius) during the day due to the lack of atmosphere to retain heat. This extreme temperature difference is due to its thin atmosphere and proximity to the sun.