Presentation is loading. Please wait.

Presentation is loading. Please wait.

Aim: How to measure energy absorbed during a phase change

Published byAbigayle Knight Modified over 9 years ago

Similar presentations

Presentation on theme: "Aim: How to measure energy absorbed during a phase change"— Presentation transcript:

1 Aim: How to measure energy absorbed during a phase change
DO NOW: What are the states as of matter for H2O? State the processes to go from one state to another. Is energy absorbed or released from solid to liquid? Liquid to gas? Explain.

2 Energy is absorbed Energy is released

3 Vocab Potential Energy- stored energy
Kinetic Energy- energy having to do with motion Heat of Fusion- the amount of heat needed to change solid to liquid at constant temperature Heat of Vaporization- the amount of heat needed to change liquid to gas at constant temperature

4 Heat of Fusion amount of heat needed to be asborbed to convert a unit of mass of a substance from a solid to a liquid at its melting point q= mHf Look at Table B: heat of fusion for water is 334 joules per gram. Example: How many joules are required to melt 255 g of ice at 0 C?

5 Heat of Vaporization amount of heat needed to be absorbed to convert a unit mass of a substance from its liquid phase to gas phase. q = Hvm Look at Table B: heat of vaporization for water is joules per gram. Example: How many joules of energy are required to vaporize 423 g of water at 100 C and 1 atm?

6 Practice What is the heat of solidification for 3.4 g of water?
2. How much energy is released to the environment by grams of condensing water vapor? 3. Is melting endothermic or exothermic? Explain.

7 Practice 4. Calculate the amount of heat needed to melt 35.0 g of ice at 0 ºC. Express your answer in kilojoules. 5. How many joules must be added to 10.0g of water to raise its temperature from 10 C to 15 C.

8 5 4 3 2 1

9 Heating Curve Temperature of the ice (solid) is increasing; increase in temperature means an increase in kinetic energy. At 0oC the ice begins to melt. During melting, the temperature stays the same; there is no change in kinetic energy. There is a change in potential energy; potential energy is increasing. The temperature of the water now rises from 0oC to 100oC.

10 Heating Curve 4. At 100oC, the water boils (changes to gas). When the water boils, the temperature stays the same; no change in kinetic energy. There is a change in potential energy; potential energy increases. 5. After all the water boils, the temperature of the gas rises.

11

Download ppt "Aim: How to measure energy absorbed during a phase change"

Similar presentations

Just to review before we start…

Just to review before we start…
Phase Changes Matter can change from one form to another. As this occurs, energy also changes.

Phase Changes Matter can change from one form to another. As this occurs, energy also changes.
Solid phase (s): Strong attractive forces hold particles in fixed location. Regular definite geometric shape; crystalline Liquid phase (l): Particles have.

Solid phase (s): Strong attractive forces hold particles in fixed location. Regular definite geometric shape; crystalline Liquid phase (l): Particles have.
Heating/Cooling Curve & Energy Calculations. Which of the following measures the average kinetic energy of a sample? 1.Mass 2.Volume 3.Specific heat 4.Temperature.

Heating/Cooling Curve & Energy Calculations. Which of the following measures the average kinetic energy of a sample? 1.Mass 2.Volume 3.Specific heat 4.Temperature.
Calculations in Chapter 10. Molar Enthalpy of Fusion Used when melting or freezing = ___energy ____ mol of substance Can be arranged to find any of the.

Calculations in Chapter 10. Molar Enthalpy of Fusion Used when melting or freezing = ___energy ____ mol of substance Can be arranged to find any of the.
Heating and Cooling Curve Definitions: Specific Heat: Amount of energy required to raise the temperature of 1 gram of a substance by 1⁰ Celsius Enthalpy.

Heating and Cooling Curve Definitions: Specific Heat: Amount of energy required to raise the temperature of 1 gram of a substance by 1⁰ Celsius Enthalpy.
For this heating curve, energy was added at a constant rate. This is obvious in regions where the temperature steadily increases (AB ; CD ; EF). In these.

For this heating curve, energy was added at a constant rate. This is obvious in regions where the temperature steadily increases (AB ; CD ; EF). In these.
Calorimetry How to use math to describe the movement of heat energy Temperature Change Problems Temperature Change Problems Phase Change Problems Phase.

Calorimetry How to use math to describe the movement of heat energy Temperature Change Problems Temperature Change Problems Phase Change Problems Phase.
States of Matter Solid Lowest energy/heat Molecules barely moving Definite, uniform shape Example: ice.

States of Matter Solid Lowest energy/heat Molecules barely moving Definite, uniform shape Example: ice.
Challenge: To determine the melting point of water.

Challenge: To determine the melting point of water.
Calculating Heat. Specific Heat Amount of heat energy needed to raise the temp of 1 ml of a substance 1°C For water the specific heat is 4.19 J/g °C,

Calculating Heat. Specific Heat Amount of heat energy needed to raise the temp of 1 ml of a substance 1°C For water the specific heat is 4.19 J/g °C,
Matter and Energy When Matter and energy interact changes in matter occur.

Matter and Energy When Matter and energy interact changes in matter occur.
Thermodynamics Ch 10 Energy Sections 10.4-10.6. Thermodynamics The 1st Law of Thermodynamics The Law of Conservation of Energy is also known as The 1st.

Thermodynamics Ch 10 Energy Sections Thermodynamics The 1st Law of Thermodynamics The Law of Conservation of Energy is also known as The 1st.
ENERGY CALCULATION PRACTICE UNIT 3. HOW MUCH ENERGY IS REQUIRED TO HEAT 200 GRAMS OF WATER FROM 25˚C TO 125˚C? HOW MUCH ENERGY IS RELEASED WHEN COOLING.

ENERGY CALCULATION PRACTICE UNIT 3. HOW MUCH ENERGY IS REQUIRED TO HEAT 200 GRAMS OF WATER FROM 25˚C TO 125˚C? HOW MUCH ENERGY IS RELEASED WHEN COOLING.
Section 15-1 The Nature of Energy Energy is the ability to do work or produce heat.Energy weightless, odorless, tasteless Two forms of energy exist, potential.

Section 15-1 The Nature of Energy Energy is the ability to do work or produce heat.Energy weightless, odorless, tasteless Two forms of energy exist, potential.
Heat: Phase Change. 'change of phase' 'change of state'. The term 'change of phase' means the same thing as the term 'change of state'. o These changes.

Heat: Phase Change. 'change of phase' 'change of state'. The term 'change of phase' means the same thing as the term 'change of state'. o These changes.
Heat in Changes of State

Heat in Changes of State
Energy.

Energy.
Calorimetry How to use math to describe the movement of heat energy Temperature Change Problems Temperature Change Problems Phase Change Problems Phase.

Calorimetry How to use math to describe the movement of heat energy Temperature Change Problems Temperature Change Problems Phase Change Problems Phase.
PHYSICAL BEHAVIOR OF MATTER

PHYSICAL BEHAVIOR OF MATTER

Similar presentations

Ads by Google