![soccerjessie40901](/avatars/26154.jpg)
soccerjessie40901
16.07.2020 •
Chemistry
The reation between sulfur dioxide and oxygen is a dynamic equilibrium. what happens when the pressure of the system is increased ?
Solved
Show answers
More tips
- S Style and Beauty What Peeling is Suitable for Sensitive Skin?...
- A Auto and Moto What Is the Cost of Customs Clearance for a Car in Russia?...
- L Leisure and Entertainment Should You Buy a Ceramic Knife?...
- C Computers and Internet How to easily and quickly disable Firebug in Gmail and Google Docs...
- G Goods and services How to sew a ribbon: Tips for beginners...
- F Food and Cooking How to Make Mayonnaise at Home? Secrets of Homemade Mayonnaise...
- C Computers and Internet Which Phone is Best for Internet Surfing?...
- 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?...
Answers on questions: Chemistry
- H Health Susie finished preparing a dish for a dinner party being held the next day. What step should she take to store the food property? Use (aluminum) foil to cover the food...
- E English We were driving along the road from Treguier to Kervanda. We passed at a smart trot between the hedges topping an earth wall on each side of the road; then at the foot...
- M Mathematics Use the function equation below to answer questions 2-4. y = 6x - 3 (1)What is the value of y if x = -1? Please give a number answer only. (2)What is the value of y...
- M Mathematics Help pleaseeee cxxxcxx...
Ответ:
In the above reaction, sulfur dioxide and oxygen react together to form sulfur trioxide. This means that an increase in pressure would move the equilibrium to the right and result in more sulfur trioxide being formed. Pressure can only affect the position of equilibrium if there is a change in the total gas volume.
Ответ:
mass of water is 7.43 g
Explanation:
q = mc∆T
qsteam = 100 g × 1.864 J/(g °C) × (110 – 100) °C = 1864 J
qwater = mwater× 4.184 J/(g °C) × (95 – 35) °C = mwater× 251.04 J/g = qsteam = 1864 J
mwater = 1864 J / 251.04 J/g = 7.43 g