1. Given the initial and final volumes of the experiment, determine the initial mass of the...
1. 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. initial temp of water before ice 28 deg C final temp after ice cube melts 2 deg C initial volume 70mL final volume after ice melts 95mL mass of water = 70mL = 70mg = 0.07g using energy conservation Q = mw(cw)(delta T) How do i set up equation to solve initial mass of water and ice? Is inital mass of water (0.07g) the initial mass of water and is this used in the equation to solve initial mass of ice cube? mw(cw)delta T = mi(ci)(delta T)?
Homework Answers
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1. Given the initial and final volumes of the experiment,
determine the initial mass of the...
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...
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...
An ice sample at initial temperature Ti (in °C) below zero is introduced into an aluminum...
An ice sample at initial temperature Ti (in °C) below zero is introduced into an aluminum calorimeter of mass ma filled with mass mw of water at room temperature of Tr. After thermal equilibrium is reached, the calorimeter contains only water at final temperature Tf. Denoting the specific heat constants for ice, water, and aluminum by ci, cw, and ca respectively, find an algebraic expression for the mass of the ice sample in terms of the given variables and L,...
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...
We did the lab of latent heat of fusion of ice, and I am confused that what the 'water equivalent...
We did the lab of latent heat of fusion of ice, and I am
confused that what the 'water equivalent' represents.
I thought it is the amount (kg) of water, but it is
mccc according to this lab manual, which unit
is (J/oC).
Please answer what the water equivalent represents and the unit
of it.
- In this experiment, an ice cube of mass mt, assumed to be at 0°C, is placed in a calorimeter containing a mass of water...
Please do part B TT uriohtent-rid-15131483 1/courses/PHY Long Problem 5, due 2/27/18 aluminum are simultaneously dropped...
Please do part B
TT uriohtent-rid-15131483 1/courses/PHY Long Problem 5, due 2/27/18 aluminum are simultaneously dropped into the water, and the system (insulated are summarized in the table below. A) A massless beaker holds a mass, m.. of water at T-0 C. Masses of iron and comes to equilibrium. The masses, initial temperatures, and specific heats Find the equilibrium temperature, T Substance Water Aluminum Mass mw mw 4 mw Specific heat 0.2 cw 0.1 c Initial T 0 °C 100℃...
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)...
How do you find the initial concentration if you are only given the initial volume and final volume? I have tried using...
How do you find the initial concentration if you are only
given the initial volume and final volume? I have tried using the
V(i) x C(i) =V(f) x C(f) equation but it needs at least 3 figures
so I'm a bit lost right now.
DILUTION WORKSHEET Solution #1 Concentration = 0.0232 0% Solution in volumetric flask before water is added to the line Solution in volumetric flask after water has been added to the line Diluted Solutions V #3 18.00mL...
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....
Q=mcAT Creiger Quantity Heat = Mass x Specific Heat x (Temp final - Temp initial) A...
Q=mcAT Creiger Quantity Heat = Mass x Specific Heat x (Temp final - Temp initial) A 30.0-8 sample of water at 7°C is mixed with a 50.0 g sample of water at 57°C. Calculate the immediate temperature just after mixing the two samples before any heat loss would occur? Temperature → _ _°C
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...
We did the lab of latent heat of fusion of ice, and I am
confused that what the 'water equivalent' represents.
I thought it is the amount (kg) of water, but it is
mccc according to this lab manual, which unit
is (J/oC).
Please answer what the water equivalent represents and the unit
of it.
- In this experiment, an ice cube of mass mt, assumed to be at 0°C, is placed in a calorimeter containing a mass of water...
Please do part B
TT uriohtent-rid-15131483 1/courses/PHY Long Problem 5, due 2/27/18 aluminum are simultaneously dropped into the water, and the system (insulated are summarized in the table below. A) A massless beaker holds a mass, m.. of water at T-0 C. Masses of iron and comes to equilibrium. The masses, initial temperatures, and specific heats Find the equilibrium temperature, T Substance Water Aluminum Mass mw mw 4 mw Specific heat 0.2 cw 0.1 c Initial T 0 °C 100℃...
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)...
How do you find the initial concentration if you are only
given the initial volume and final volume? I have tried using the
V(i) x C(i) =V(f) x C(f) equation but it needs at least 3 figures
so I'm a bit lost right now.
DILUTION WORKSHEET Solution #1 Concentration = 0.0232 0% Solution in volumetric flask before water is added to the line Solution in volumetric flask after water has been added to the line Diluted Solutions V #3 18.00mL...
Q=mcAT Creiger Quantity Heat = Mass x Specific Heat x (Temp final - Temp initial) A 30.0-8 sample of water at 7°C is mixed with a 50.0 g sample of water at 57°C. Calculate the immediate temperature just after mixing the two samples before any heat loss would occur? Temperature → _ _°C
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