Subduction leads to composite, or above ground
0.00162 is the Ksp of Ag2CO3 at 10 degrees.
Explanation:
Ag2CO3(s) --- 2Ag+
(aq) + CO3 ^-2(aq)
The product of molar solubility of each ion in moles/litre gives the solubility product.
The molar solubility of Ag2CO3 is 0.074 M at 10 degrees.
From the above reaction we can see that
2 Moles of Ag and 1 mole of carbonate ions,
So, [Ag2CO3]= 2[Ag]^2[CO3^2-]
Ksp of Ag+= 2*0.074
= 0.148
Ksp of CO3^-2= 0.074
= 0.148
Ksp of AgNO3= [0.148]^2 [0.074]
Ksp of AgNO3 = 0.00162 AT 10 degrees
Answer:
I'm not really sure if you're interested in the electron dot diagram of the potassium and bromine atoms, or of potassium bromide,
KBr, so I'll show you both. You can use this example to find the electron dot diagram of hydrogen bromide, HBr.
Explanation:
The reaction releases heat and gives net energy to its surroundings. The energy needed to initiate the reaction is less than the energy released.