Arigid, closed container contains 0.0700 mol of ne(g) and a sample of the solid, ammonium nitirite, nh4no2. assume that the volumes of solids are negligible compared to the volume of the container. the pressure of the ne is meausre at 33 degrees celsius and is found to be .409atm.
the container is then heated to 333 degrees celsius and all of the ammonium nitrite decomposes according to the reaction. nh4no2(s) --> n2(g) + 2h2o(g)
the ne is not involved in the reastion and is still present. the final pressure in the container after complete decompostion of the nh4no2 is 3.93 atm. assuming ideal gas behavior, answer the following questions.
a. what is the volume of the container, in liters?
b. what is the partial pressure of h2o in the containers, at 333 c, when the reaction is complete?
ph2o=
Answers: 3
Chemistry, 22.06.2019 05:30, alexusnicole817
Which of the following signs of a chemical reaction are observed in the reaction of potassium with water? precipitate formed temperature change smell produced gas produced color change
Answers: 2
Chemistry, 22.06.2019 12:00, macylen3900
Ineed this asap part i: scientific method what is the difference between science and pseudoscience? what is the scientific method?
Answers: 2
Chemistry, 22.06.2019 17:40, Snowball080717
How much heat is added if 0.814g of water increase in temperature by 0.351 degree c?
Answers: 3
Chemistry, 23.06.2019 16:40, xarianna2007
Moseley made revisions to the periodic table that resolved some of the problems with mendeleev's version. which of thesewas a result of his revisions to the periodic table? the revised periodic table could account for the discovery of new elements. the revised periodic table could account for variations resulting from isotopesscientists could begin to write new information onto each element. scientists could begin to place the table on a single sheet of paper.
Answers: 1
Arigid, closed container contains 0.0700 mol of ne(g) and a sample of the solid, ammonium nitirite,...
Chemistry, 27.10.2020 01:20
English, 27.10.2020 01:20
Mathematics, 27.10.2020 01:20