Answer:
ans: the final temperature is 31.6 degrees Celsius
Explanation:
knowns:
m(alum)=225g
Δt(alum)= (125.5C-final temp)
sp.h(alum)=0.900J/gC
m(wtr)=500.0g
Δt(wtr)=(final temp- 22.5C)
sp.h(wtr)=4.184 J/gC
temp final=x
alum: h=(225g)(0.900J/gC)(125.5C-x)
water: h=(500.0g)(4.184J/gC)(x-22.5C)
heat gained by water=heat lost by metal
(225g)(0.900J/gC)(125.5C-x)=(500.0g)(4.184J/gC)(x-22.5C)
step one: mass multiplied by specific heat on both sides
<em> (left side)225g * .900J/gC; (right side)500.0g * 4.184J/gC</em>
202.5J/C (125.5C-x) = 2092J/C (x-22.5C)
step two: cross multiply on both sides
<em>(left side) 202.5J/C * 125.5C and 202.5J/C * -x;</em>
<em> (right side) 2092J/C * x and 2092J/C * -22.5C</em>
25413.75J - 202.5xJ/C = 2092xJ/C - 2114.5J
step three: add on both sides
<em>(left side) 25413.75J + 2114.5J</em>
<em> (right side) 2092xJ/C + 202.5xJ/C</em>
72483.75J = 2294.5xJ/C
step four: divide on the left side (everything is divided but x)
<em>(left side) 72483.75J / 2294.5J/C</em>
<em>31.59021573 C = x</em>
<em />
step five: sig figs + answer
31.6 = x
x= the final temperature is 31.6 C
I hope this helps, took me forever to figure out for homework so I figured that I might as well share how I got my answer! Feel free to tell me if I typed in anything incorrectly :)
solubility will increase, since it is basic in nature, on acidifying solubility increases.
being basic on acidification, the solubility increases.
is alkaline in nature, it gets neutralized and there is no increase in acidity.
is a salt and it shows no effect on acidification.
is a salt but insoluble in water and shows no effect on acidification.
is strongly basic in nature, on acidifying the solubility increases.