mahkitheking16
15.07.2019 •
Chemistry
Sample data from titration lab: amount of analyte; (hcl): 19.54 ml amount of titrant; (naoh): 12.33ml molar concentration of hcl: 0.5 the molarity of the hcl would be: m
Solved
Show answers
More tips
- H Health and Medicine How to Tan in a Tanning Bed? Tips and Recommendations...
- W Work and Career What is the Most In-Demand Profession in the Modern World?...
- A Auto and Moto How Can Parking Sensors Help Drivers?...
- H Health and Medicine What is the Normal Blood Sugar Level in a Healthy Person?...
- F Food and Cooking Red Caviar: How to Choose the Best?...
- C Computers and Internet Clearing Cache: How to Speed Up Your Browser...
- S Style and Beauty How are artificial nails removed?...
- S Style and Beauty Secrets of Tying a Pareo: 5 Ways...
- F Food and Cooking Everything You Need to Know About Pasta...
Answers on questions: Chemistry
- M Mathematics URGENT!! Please help me Draw the answer on and explain if you can pleaseThanks a lot!!I already filled in the 12345 but I need help on the top row....
- M Mathematics Plz help I will mark brainliest :)...
- B Biology WILL GIVE BRAINLIEST AND 100 POINTS im being time In this assignment, you will use, evaluate, and improve a simulation to highlight human impact on coral reef ecosystems....
- S Social Studies Which factors slowed population growth in china until the 1300? a. one child policy. b. urbanization c. epidemics. d. warfare...
Ответ:
I think you are looking for the molarity of NaOH (and not HCl).
To calculate it you should use the equation: Ca x Va = Cb x Vb ("a" for acid, and "b" for base)
so Cb (the molarity we are looking for) =
Cb =
So, The molarity of NaOH is: Cb = 0.792 M
Ответ:
Silicon nitride is difficult to produce as a bulk material it can't be heated over 1850 °C, which is below its melting point, due to dissociation to silicon and nitrogen.
Explanation:
Silicon crystallises in a giant covalent structure at standard conditions, specifically in a diamond cubic lattice. It thus has a high melting point of 1414 °C. It is not known to have any allotropes at standard pressure, but several other crystal structures are known at higher pressures.