PLEASE SHOW ALL YOUR WORK CLEARLY, AND EXPLAIN YOUR PROCESS. DATA: Initial mass of cup with...
PLEASE SHOW ALL YOUR WORK CLEARLY, AND EXPLAIN YOUR PROCESS.
DATA:
Initial mass of cup with water = 99.69 g
Final mass of cup with water = 150.89 g
Initial temperature of water = 41 °C
Final temperature of water = 4.4 °C
Analysis
a) Determine the mass of the ice that has melted.
b) Determine the variation of the water temperature (ΔT).
c) Calculate the energy (in J) released by 100 g of water when
it cooled by ΔT. The specific heat capacity(c) of water is 4.18
J/(g°C). Use the formula Q = mcΔT and the mass of water.
d) Convert your answer into kJ.
e) Calculate the energy necessary to melt 1 g of ice (in kJ). Use the mass of ice.
f) Using the results from this experiment, determine how many kJ are required to melt 1 mole of ice.
g) Write the chemical equation for the melting of ice. Don't forget to include the value for the energy term in your equation.
Homework Answers
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PLEASE SHOW ALL YOUR WORK CLEARLY, AND EXPLAIN YOUR PROCESS.
DATA:
Initial mass of cup with...
Initial mass of ice = 150.89 g Final mass of ice = 99.69 g Initial temperature...
Initial mass of ice = 150.89 g Final mass of ice = 99.69 g Initial temperature of water = 42 °C Final temperature of water = 0.4 °C Determine the mass of the ice that has melted. Determine the variation of the water temperature (ΔT). a) Calculate the energy (in J) released by 100 g of water when it cooled by ΔT. The specific heat capacity(c) of water is 4.18 J/(g°C). Use the formula Q = mcΔT and the mass...
Please help me answer the following questions given the data that I obtained, and please type...
Please help me answer the following questions given the data
that I obtained, and please type your answer showing step by step
calculations and formulas please
Experiment 2: Conservation of Heat Energy – Analysis and
Discussion
Based on your experimental results, please answer the
following questions:
Given the initial and final volumes of the experiment,
determine the initial mass of the water and the mass of the ice
cube. Show your work. Record your answer in the table above.
Given...
Part C: Energy in Changes of State: CI. Mass of empty calorimeter cup with lid 6-835...
Part C: Energy in Changes of State: CI. Mass of empty calorimeter cup with lid 6-835 107.15 C2. Mass of calorimeter with lid + water C3. Final water temperature Initial water temperature C4. Mass of calorimeter with lid + water + melted ice 135.648 Calculations: CS. Mass of water C6. Temperature change (AT) C7. Calories lost by water Calories used to melt ice C8. Mass of ice that melted C9. Heat of fusion (calories to melt 1 g of ice)...
foundation of chemistry scc101 Part C: Energy in Changes of State: C1. Mass of empty calorimeter...
foundation of chemistry scc101
Part C: Energy in Changes of State: C1. Mass of empty calorimeter cup with lid C2. Mass of calorimeter with lid+ water 24 242 23 52 C3. Final water temperature oC Initial water temperature OC C4. Mass of calorimeter with lid+water+ melted ice Calculations: C5. Mass of water 12b 042 49,28° OC cal cal C6. Temperature change (AT) C7. calories lost by water Calories used to melt ice 30.284 C8. Mass of ice that melted C9....
Can anyone tell me if my calculations are correct? Water Volume and Temperature Data Water Volume...
Can anyone tell me if my calculations are correct? Water Volume and Temperature Data Water Volume (mL) Temperature (C) Initial 70mL 28.0oC Final 95mL 2.0oC System Heat Data Mass of water (g) 70.0g Mass of ice cube (g) 23.0g Change in water temperature (C) 26.0Co Change in ice temperature (C) 2.0Co Heat lost by water (J) 7618.5J Heat gained by ice after melting (J) 95.827J Heat used to melt ice (J) 7522.7Jsigfig Theoretical heat to melt ice (J) 7656.9J sigfig...
An ice cube of mass 9.0g is added to a cup of coffee, whose temperature is 90.0 °C and which contains 120.0 g of li...
An ice cube of mass 9.0g is added to a cup of coffee, whose temperature is 90.0 °C and which contains 120.0 g of liquid. Assume the specific heat capacity of the coffee is the same as that of water. The heat of fusion of ice (the heat associated with ice melting) is 6.0kJ/mol. Find the temperature of the coffee after the ice melts. Use the equation given in the lab manual on page 86. Ignore the + (CC) (AT)...
Your 200g cup of coffee is boiling hot (100 degrees celcius). You throw in 50g of...
Your 200g cup of coffee is boiling hot (100 degrees celcius). You throw in 50g of -15 degrees celcius of ice to cool it off. Assuming negligible heat leaves the coffee-ice system during this process, what is the final temperature of your coffee? (The specific heat capacity of ice is 2.03 J/(g degree C and the specific heat capacity of water is 4.18 and the latent heat of melting for ice to water is 334J/g).
1. Calculate the amount of heat (q) produced by the combustion of 4.05 g CH4 (ΔHcomb...
1. Calculate the amount of heat (q) produced by the combustion of 4.05 g CH4 (ΔHcomb = -890.4 kJ/mol). 2. Construct a table listing all the data and values you will need to record or find to calculate the specific heat of a single Vienna sausage. Be sure to indicate whether you will need to measure these values or find them from another source. Also make sure you leave enough space for recording these values (with units!) (HINT: Remember q...
To cool her 0.200 kg cup of 75.0 C hot chocolate (mostly water), Heidi drops a...
To cool her 0.200 kg cup of 75.0 C hot chocolate (mostly water), Heidi drops a 29,.97 g ice cube at 0 C into her insulated cup. After the ice cube melts, the temperature of the hot chocolate comes down to 54.8 C. a. How much energy was lost by the hot chocolate? The specific heat capacity of water is 1 cal/g C b. How much energy was gained by the ice cube just to melt to 0 C water?...
Datasheet Part 2 1. Mass of empty cups 6.48 2. Mass of cups plus 100 mL...
Datasheet Part 2 1. Mass of empty cups 6.48 2. Mass of cups plus 100 mL warm water 116.84 3. Initial temperature of warm water 366.0 7. Final temperature of water plus melted ice 5. Mass of water in calorimeter 18.9 21.2.139.05 29.27 145.53 - Mass of ice added Total mass Cups + ait H2O in the end Calculations - Part 2 For this system, note that AH calorimeter + 4Hwarm water + AHice water + AHfusion = 0 For...
Please help me answer the following questions given the data
that I obtained, and please type your answer showing step by step
calculations and formulas please
Experiment 2: Conservation of Heat Energy – Analysis and
Discussion
Based on your experimental results, please answer the
following questions:
Given the initial and final volumes of the experiment,
determine the initial mass of the water and the mass of the ice
cube. Show your work. Record your answer in the table above.
Given...
Part C: Energy in Changes of State: CI. Mass of empty calorimeter cup with lid 6-835 107.15 C2. Mass of calorimeter with lid + water C3. Final water temperature Initial water temperature C4. Mass of calorimeter with lid + water + melted ice 135.648 Calculations: CS. Mass of water C6. Temperature change (AT) C7. Calories lost by water Calories used to melt ice C8. Mass of ice that melted C9. Heat of fusion (calories to melt 1 g of ice)...
foundation of chemistry scc101
Part C: Energy in Changes of State: C1. Mass of empty calorimeter cup with lid C2. Mass of calorimeter with lid+ water 24 242 23 52 C3. Final water temperature oC Initial water temperature OC C4. Mass of calorimeter with lid+water+ melted ice Calculations: C5. Mass of water 12b 042 49,28° OC cal cal C6. Temperature change (AT) C7. calories lost by water Calories used to melt ice 30.284 C8. Mass of ice that melted C9....
An ice cube of mass 9.0g is added to a cup of coffee, whose temperature is 90.0 °C and which contains 120.0 g of liquid. Assume the specific heat capacity of the coffee is the same as that of water. The heat of fusion of ice (the heat associated with ice melting) is 6.0kJ/mol. Find the temperature of the coffee after the ice melts. Use the equation given in the lab manual on page 86. Ignore the + (CC) (AT)...
Datasheet Part 2 1. Mass of empty cups 6.48 2. Mass of cups plus 100 mL warm water 116.84 3. Initial temperature of warm water 366.0 7. Final temperature of water plus melted ice 5. Mass of water in calorimeter 18.9 21.2.139.05 29.27 145.53 - Mass of ice added Total mass Cups + ait H2O in the end Calculations - Part 2 For this system, note that AH calorimeter + 4Hwarm water + AHice water + AHfusion = 0 For...
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