How many liters would you need to make a 1 M solution if you have 6 mol of Sodium Hydroxide?
Solved
Show answers
More tips
- 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...
- C Computers and Internet How to Choose a Monitor?...
- H Horoscopes, Magic, Divination Where Did Tarot Cards Come From?...
- S Style and Beauty How to Make Your Lips Fuller? Ideas and Tips for Beautiful Lips...
- C Computers and Internet How to Learn to Type Fast?...
Answers on questions: Chemistry
- C Chemistry (01.02 lc) which of the following is a valid conversion factor? o 1 cm 1 ml 100 l 10 m dm 100 cg...
- C Chemistry Which of the following correctly describes what happens to the kinetic energy of water when it changes from the solidstate to the liquid state? the kinetic enery of the molecules...
- C Chemistry How to find the molar mass of magnesium sulfate heptahydrate?...
- C Chemistry Which of the following is correct order of the strength of bonds...
- C Chemistry Write a short note on the life of people of ladakh...
- C Chemistry And help me with is one too please!...
- E English How does Amir s past come back to him during his wedding? What is the significance of these fleeting thoughts for Amir and for the primary conflict of the novel?...
- C Chemistry An atom of nitrogen has seven electrons. I hitch diagram correctly represents the arrangement of these electrons?...
- M Mathematics Determine the maximum r-value of the graph. Answers: A. -1/2 B. 1 C. 5 D. 10...
- M Mathematics If two towns have the same population density, which must also be true...
Ответ:
molarity = no. of moles of solute / 1 liter .
* one moles of sodium hydroxide = 40 gm of sodium hydroxide.
so we can said ; if want prepare 1 molar NaOH solution then we need 40 gm NaOH dissolve in one liter of water so it became one 1 molar NaOH solution
Explanation:
Ответ:
Sam's momentum as he leaves the jump is 1350 kg *m/s.
Explanation:
To solve this problem, we must remember the formula for momentum:
p = mv
Where p represents the momentum of the function, m represents the mass of the object, and v represents the velocity of the object
Now, to solve, we must simply plug in our values into this equation.
p = mv
p = (75 kg)(18 m/s)
p = 1350 kg *m/s
Therefore, your answer is 1350 kg * m/s.
Hope this helps!