Steam at 100°C is added to ice at 0°C.
(a) Find the amount of ice melted and the final
temperature when the mass of steam is 13.0 g and the mass
of ice is 45.0 g.
g
°C
(b) Repeat this calculation, when the mass of steam
as 1.30 g and the mass of ice is 45.0 g.
g
°C
Steam at 100°C is added to ice at 0°C.
(a) Find the amount of ice melted and the final temperature when
the mass of steam is 12 g and the mass of ice is 45 g. Answers in g
and °C
(b) Repeat with steam of mass 1.9 g and ice of mass 45 g.
Answers in g and °C
Steam at 100°C is added to ice at 0°C.
(a) Find the amount of ice melted and the final temperature when
the mass of steam is 13 g and the mass of ice is 48 g.
g
°C
(b) Repeat with steam of mass 2.1 g and ice of mass 48 g.
g
°C
Steam at 100°C is added to ice at 0°C. Find the temperature when
the mass of steam is 10 g and the mass of ice is 50 g. The specific
heat of water is 4186 J/kg°C, its latent heat of fusion is 3.33x105
J/kg and its heat of vaporization is 2.26x106 J/kg.
What mass of steam at 100∘C must be added to 1.80 kg of ice at
0∘C to yield liquid water at 20 ∘C? The heat of fusion for water is
333 kJ/kg , the specific heat is 4186 J/kg⋅C∘ , the heat of
vaporization is 2260 kJ/kg .
What mass of steam at 100∘C must be added to 1.90 kg of ice at
0∘C to yield liquid water at 15 ∘C? The heat of fusion for water is
333 kJ/kg , the specific heat is 4186 J/kg⋅C∘ , the heat of
vaporization is 2260 kJ/kg .
If 200 g of ice at 0°C and 50 g of steam at 100°C interact
thermally in a well-insulated container. The final state of the
system will be;
( is loved it and got Tf= 64C ) ( so please choose an answer
from the following multiple choices )
(a) A water steam mixture at 100°C
(b) Water at a temperature between 0°C and 50°C (c) 0.089 kg
(d) 0.12 kg
(e) A ice-water mixture at 0°C
In a thermally isolated environment, you add ice at 0°C and
steam at 100°C. (a) Determine the amount of steam condensed (in g)
AND the final temperature (in °C) when the mass of
ice and steam added are respectively 84.0 g and 10.8 g.
(b)
Repeat this calculation, when the mass of ice and steam added
are interchanged. (Enter the amount of steam condensed in g and the
final temperature in °C.)
100 g of solid ice at 0°C is added to 500 g of liquid water at
90°C. What is the final temperature? What is initial water
temperature is required so that 10 g of ice remain once equilibrium
has been reached?
190 g of ice at 0 ºC is mixed with 49 g of steam at 100 ºC to
make water. The latent heat of fusion of water is 33.5 × 104 J/kg,
and the specific heat of water is 4186 J/kg∙K, the latent heat of
vaporization of water is 22.6 × 105 J/kg.
A) Determine the amount of heat released by steam at 100*C to
make water at 100*C.
B) Determine the amount of heat absorbed by ice at 0*C...