Matter and Energy What is matter Matter and Energy What is matter Its what everything that occupies space and has mass is made of And everything like that is made out of chemical elements There are 92 naturally occurring chemical elements and a number of synthetic ones ID: 772464
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Matter and Energy What is matter?
Matter and Energy What is matter? It's what everything that occupies space and has mass is made of And everything like that is made out of chemical elementsThere are 92 naturally occurring chemical elements, and a number of synthetic ones
Matter and Energy What is matter? It's what everything that occupies space and has mass is made of And everything like that is made out of chemical elementsThere are 92 naturally occurring chemical elements, and a number of synthetic ones
Matter and Energy What is matter? It's what everything that occupies space and has mass is made of And everything like that is made out of chemical elementsThere are 92 naturally occurring chemical elements, and a number of synthetic ones
Matter and Energy What is matter? It's what everything that occupies space and has mass is made of And everything like that is made out of chemical elementsThere are 92 naturally occurring chemical elements, and a number of synthetic ones Where were all the naturally occurring chemical elements made?
Matter and Energy What is matter? It's what everything that occupies space and has mass is made of And everything like that is made out of chemical elementsThere are 92 naturally occurring chemical elements, and a number of synthetic ones: Where were all the naturally occurring chemical elements made? INSIDE STARS
Matter and Energy What is energy? It’s what makes things happen It’s what makes matter moveWe buy energy every dayWhat are some forms of energy you’ve bought this week?So you can see that energy comes in a variety of forms
Matter and Energy Forms of Energy Kinetic energy -- energy of motion Potential energy -- energy stored for later release as kinetic or radiativegravitational chemical electrical nuclear Radiative energy -- energy carried by electromagnetic waves …there are several types:
Matter and Energy The different forms of energy can be converted into one another Understanding the conversions is essential to understanding astronomy And this is tied to another fundamental conservation law: Conservation of Energy
Matter and Energy Conservation of Energy In an isolated system, energy can change form, but the total amount never changes Anything that happens involves an exchange of energy between material objects and/or the conversion of energy from one form to another. Here's an example… Chemical PE (food) KE (lifting weight)gravitational PE (holding weight)KE (weight falling)various KEs (thermal energy, work, sound)
Types of Energy Kinetic energy and thermal energy Kinetic energy = energy of motion, already encountered in orbital energy “Thermal energy” is the total kinetic energy in a system of randomly moving particles Thermal energy is related to the temperature of the system The average kinetic energy of the particles in the system is given by But which temperature scale? It has to be the Kelvin scale The math won’t work with the others
Types of Energy Thermal motion and thermal energy Thermal motion can be surprising How fast do you think air molecules move?
Types of Energy Thermal motion and thermal energy Thermal motion can be surprising How fast do you think air molecules move?
Types of Energy Thermal motion and thermal energy Thermal motion can be surprising How fast do you think air molecules move?
Types of Energy Thermal motion and thermal energy Thermal motion can be surprising How fast do you think air molecules move?
Types of Energy Temperature and thermal energy are not the same thing
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a system
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system Longer arrows mean higher average speed
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system Which box has the higher temperature?
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system Which box has more thermal energy?
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system Which box has the higher temperature now?
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system Which box has more thermal energy?
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system Systems can have the same temperature but different thermal energies And vice versa
Types of Energy Temperature and thermal energy are not the same thing Temperature is a measure of the average kinetic energy of the particles in a systemThermal energy is a measure of the randomized kinetic energy of all the particles in a system It is thermal energy, not temperature, that causes burns Think about this kitchen example… The 212ºF oven has less thermal energy than the boiling water
More Types of Energy Potential energy Gravitational potential energy, already encountered in orbital energy Mass-energy
Important Types of Energy for Astronomy Kinetic energy – energy of motion Thermal energy – randomized kinetic energy of collection of particles Gravitational potential energy – energy due to position in a gravity field Mass-energy – energy equivalent of mass This is the average KE of the particles
How much mass do you think is equivalent to the amount of energy released by metabolizing a ~2 ounce candy bar – 1 x 10 6 J? merely half a billionth of an ounceHow much energy is contained in 1 kg of mass?9 x 1016 J, the equivalent of an 18 megaton nuclear bomb, 1200 times the bomb that wiped out Hiroshima in 1945 1600X more than is released by fissioning 1 kg of uranium!
The Material World What does energy do?... …it moves matter, and that’s what we’ll talk about now What is matter made of?...…the chemical elements There are 92 naturally occurring chemical elements So whey are there many more substances than that?... …because atoms combine to form molecules and compounds… …with very different properties from the elements they are made of: H 2 gas O 2 gas S solid H 2 O liquidH2SO4 liquid
The Material World Atoms are very small If a typical atom were the size of this room, its nucleus would be a fraction of a millimeter in diameter The tiny nucleus contains nearly all of the atom's mass… …and determines the identity of the element
The Material World What distinguishes one element from another is the number of protons in the nucleus The atoms themselves come in different forms called isotopes
The Material World What distinguishes one element from another is the number of protons in the nucleus The atoms themselves come in different forms called isotopes The carbon isotopes shown above are examples Isotopes differ in the number of neutrons in the nucleus Isotopes are often radioactive, a very useful property, as we will see Different combinations of atoms form different substances… Once a substance forms, it can exist in different states or “phases”…
The Material World Most of us are familiar with the solid, liquid, and gas phases These differ in how much the particles are moving… …which depends on the temperature Their motion affects how strongly they stick together Adding or extracting thermal energy changes the temperature… …and this can cause "phase transitions“ (generally in the sequence shown for water at left)
The Material World …but phase transitions can happen out of sequenceSublimation: solid → gas And sometimes they occur with no change in overall thermal energy Evaporation: liquid → gas But all phase changes are caused by particles gaining or losing energy… …and how this affects the particles’ motions… …which can affect the possible types of bonds between particles
The Material World If the temperature gets really high, there will be transitions to phases that are not so familiar... These are called plasmas In plasmas, because of the high temperatures, the particles themselves dissociate Plasmas are important in astronomy because they are found in all stars
Do you understand phase changes? Suppose that a chunk of an unknown solid substance was found on an alien world in which the bonds between atoms were unbreakable. Would phase changes be possible for this substance? Yes No
Do you understand phase changes? Suppose that a chunk of an unknown solid substance was found on an alien world in which the bonds between atoms were unbreakable. Would phase changes be possible for this substance? Yes No, because if the bonds can’t be broken, the phase can’t change
The Material World An individual atom has several forms of energy: Mass-energy (E = mc 2), by virtue of the mass the atom (mostly the nucleus) has Kinetic energy (KE = ½mv 2 ), if the atom is moving Electron orbital energy (internal to the atom), very important in astronomy An electron in an atom can have different energies But it can’t have just any energy Instead, the energy states are quantized (the basis of quantum theory)
The Material World This diagram shows the energy states for a hydrogen atom An electron in a hydrogen atom can only have these energies
The Material World The electron can move up and down (or “transition”) between these energy states, gaining and losing energy in the process But transitions only happen if the energy gained or lost exactly equals the difference between energy states And this leads to one of the most important techniques used in astronomy
Spectroscopy Energy lost in a downward transition is emitted as a photon of light Absorption of photons can supply the energy for an upward transition This is where emission and absorption spectra come from And these spectra provide astronomers with a surprising wealth of information… …which we will look at in more detail in the next section