Day 1 - heat Q=cm/t (no manipulation) Open system, closed,
isolated Law of conservation of energy lost energy Explain heat
change to states of matter Internal energy = random motion of atoms
and mole cules Relate temperature to average molecular Ek Slide 2
Day 2 endo/exo & phase transitions Label a graph as endo or
exo/ know what endo and exo is (and states of matter on a graph)
Slide 3 Heat Slide 4 Ms. King desk BOARD BLACK DESKS ONLY: Breonna,
Destiney, Kenneth CabinetsCabinets 1 chiarrah, rhyannon, alexia
tayia davon B kiana aaronjordandarius terronda, damion, shomari
kendjykanishatorien stevensapphirajustis deniceeddieronica diamond
matthew donovanisaiahjamya marisa elijah christian B Bell Ringer
for points! 1.FIND YOUR NEW SEAT 2.Take out your journal &
writing utensil Slide 5 Ms. King desk BOARD COMPUTERS Tyquan
CabinetsCabinets 2 jakeria W courtneylionel tyrionadeseancarmani
christie, akiara, perryon asia, christine V diane, annamaria
destinialexandriadeondre jakeria T kendallmalik
semajdonquavisisaiah tareek Bell Ringer for points! 1.FIND YOUR NEW
SEAT 2.Take out your journal & writing utensil Slide 6 Ms. King
desk BOARD COMPUTERS (pair up) Cain, Padilla, Thomas, Sanquan
CabinetsCabinets 4 kenoshasamiyah amarigarrystephanie jordan,
brittany gammoni, cathie jalen, dre, jamal tylaunadevinivory
jaylacalvinbrooklen raheemtaliyahtashauna Bell Ringer for points!
1.FIND YOUR NEW SEAT 2.Take out your journal & writing utensil
Slide 7 Ms. King desk BOARD Black desks None CabinetsCabinets 6
kenneth, jamileth, sarah jasmine h khaiizshel emely le, emely s,
gabriel derreonte, darius, cornel crystalstephenjoshua christian p
jasmine D kenya jaquanchaiashiatyrah jovonxavierkyceem justen f
zachary Bell Ringer for points! 1.FIND YOUR NEW SEAT 2.Take out
your journal & writing utensil Slide 8 Ms. King desk BOARD
computers Lee CabinetsCabinets 7 keniya, shantrell, faith
zakeraRusselmichelle shakira, regina, briana Carrie, gabriella,
khateeb jamauriahdrevioustiffany essence raven m caitlyn
nelsonraquandawud destiny taylorerikalakeiorioa raven s alexis
Cayla s Bell Ringer for points! 1.FIND YOUR NEW SEAT 2.Take out
your journal & writing utensil Tyler Slide 9 Ms. King desk
BOARD Computers (one per computer) Jeannie, Chris F, Antonio,
Hayley, Courtney CabinetsCabinets 8 richard, cameron P, johneda
jadajakyyahshavonna alvin ahmari ahmariessence kiyiem, nick r,
colay sakoyia, antonio, noemi camilleanbrianacandie
ralphkyreediante --empty-- Bell Ringer for points! 1.FIND YOUR NEW
SEAT 2.Take out your journal & writing utensil Slide 10 Frayer
Model Conduction Convection Radiation Heat Thermal energy Heat
transfer Temperature reaction rate Exothermic Endothermic
activation energy chemical equilibrium 15 minutes EXAMPLE The
amount of heat needed to raise the Temperature of 1kg material 1C
The temperature increase of an object depends on its mass and the
material from which it is made. The specific heat of water is
4.184. specific heat Slide 11 Lets see how you did on the Focus
Lesson: Periodic Table Family (Valence) 12 3 4 5 6 78 Period
(rings) 1234512345 GREENYELLOW GREEN= METALYELLOW = NON-METAL Ionic
(metal & non-metal) Covalent (2 non-metals) Slide 12 Lets see
how you did on the Focus Lesson: Periodic Table Nucleus OXIDATION
NUMBERS Slide 13 Expectations C - none H raised hand A guided notes
11.1 - 11.2 M - none P everyone ; no heads down S success! Rules
& Consequences still apply Slide 14 11.1 What is heat? Heat is
thermal energy that is moving. Heat flows any time there is a
difference in temperature. Because your hand has more thermal
energy than chocolate, thermal energy flows from your hand to the
chocolate and the chocolate begins to melt. Slide 15 11.1 What is
heat? Heat and temperature are related, but are not the same thing.
HEAT is thermal energy that is moving or is capable of moving
TEMPERATURE is how much kinetic energy the molecules have due to
random motion The amount of thermal energy depends on the
temperature but it also depends on the amount of matter you have.
The metric unit for measuring heat is the joule. This is the same
joule used to measure all forms of energy, not just heat. Slide 16
11.1 Specific heat The specific heat is a property of a substance
that tells us how much heat is needed to raise the temperature of
one kilogram of a material by one degree Celsius. Knowing the
specific heat of a material tells you how quickly the temperature
will change as it gains or loses energy. Slide 17 11.1 Why is
specific heat different for different materials? Temperature
measures the average kinetic energy per particle. Energy that is
divided between fewer particles means more energy per particle, and
therefore more temperature change. In general, materials made up of
heavy atoms or molecules have low specific heat compared with
materials made up of lighter ones. Slide 18 Slide 19 Simulation
specific heat Select show energy Drag and drop Drag and hold heat
or cool Slide 20 11.2 Heat transfer Heat conduction is the transfer
of heat by the direct contact of particles of matter. Conduction
occurs between two materials at different temperatures when they
are touching each other. Where is the heat energy conducted to and
from in this system? Slide 21 11.2 Convection Convection is the
transfer of heat through the motion of matter such as air and
water. The hot water at the bottom of the pot rises to the top and
replaces the cold water. Slide 22 11.2 Thermal radiation Heat from
the Sun is transferred to Earth by thermal radiation. All the
energy the Earth receives from the Sun comes from thermal
radiation. The higher the temperature of an object, the more
thermal radiation it emits. Slide 23 11.2 Thermal radiation Thermal
radiation is also absorbed by objects. The amount of thermal
radiation absorbed depends on the surface of a material. Dark
surfaces absorb most of the thermal radiation they receive. Silver
or mirrored surfaces reflect thermal radiation. Slide 24 11.2 Heat
transfer, winds, and currents A thermal is a convection current in
the atmosphere. When a surface, like a road absorbs solar
radiation, it emits energy as heat. The warmed air molecules gain
kinetic energy and rise. Colder air is forced aside and sinks.
Slide 25 Slide 26 Group project Give real life application of
conduction, convection and radiation. Draw a movie poster related
to the word assigned. Include a clever title!Rubric: 20 minutes
POINTSEXPECTATION 20Neat; not rushed; looks like group took their
time creating the poster 20Creative; unique; not similar to other
group/teacher examples 20Demonstrates that they understand the word
they were assigned 20Assignment completed in a timely manner
10Quiet/respectful when others are presenting Slide 27 Radiation:
transfer of thermal energy through waves Summer 2016 Slide 28
Conduction: transfer of heat by the direct contact of particles of
matter DONT TOUCH THAT DUN DUN DUN Spring 2016 Slide 29 Convection:
the transfer of heat by the motion of matter THE LORD OF THE HOT
STUFF Spring 2016 Slide 30 Heat: thermal energy that is moving or
capable of moving Hot and hungry Fall 2015 Slide 31 Thermal energy:
energy due to temperature SOLAR FLARE II Summer 2015 Slide 32 Heat
Transfer: the flow of energy from high temperature to low
temperature You can run but you cant hide Summer 2015 Slide 33
Temperature: a quantity that measures the kinetic energy per
molecule due to random motion FROZEN and the Low Kinetic Energy
Crew Winter 2016 Slide 34 Day 2 Slide 35 11.1 The heat equation
Slide 36 How much heat is needed to raise the temperature of a
250-liter hot tub from 20C to 40C? Solving Problems Slide 37
