Mass of the reaction solution, msoln (g) Add together the masses of the NaOH(s), water(100ml) , and ( 100.0 mL) HCl(aq). Convert the volumes of water and HCl(aq) to mass using 1.000 g/mL as the density (we are assuming the HCl solution has the same density as water, see procedure for volumes used).
Mass of the reaction solution, msoln (g) Add together the masses of the NaOH(s), water(100ml) , and ( 100.0 mL) HCl(aq). Convert the volumes of water and HCl(aq) to mass using 1.000 g/mL as the density (we are assuming the HCl solution has the same density as water, see procedure for volumes used).
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Mass of the reaction solution, msoln (g)
Add together the masses of the NaOH(s), water(100ml) , and ( 100.0 mL) HCl(aq). Convert the volumes of water and HCl(aq) to mass using 1.000 g/mL as the density (we are assuming the HCl solution has the same density as water, see procedure for volumes used).
Transcribed Image Text:4.0574
1. Mass of NAOH (g)
25.00
Initial temperature
2.
(*C)
37.14
3. Final temperature (*C)
Part 2 of 6
Calculations
12.14
Change in temperature of the reaction
4.
solution, ATgoln ('C)
Part 3 of 6
Mass of the reaction solution, msoln (g)
Add together the masses of the NaOH(s),
water, and HCI(aq). Convert the volumes of
5.
water and HCI(aq) to mass using 1.000 g/mL
as the density (we are assuming the HCI
solution has the same density as water, see
procedure for volumes used).
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