teacher version filled in
... The energy (E) of a single quantum is equal to its frequency (ν) times a constant ...
... The energy (E) of a single quantum is equal to its frequency (ν) times a constant ...
AP Chemistry
... 6.3.1 Monochromatic light = light of a single wavelength 6.3.2 Spectrum = when radiation from a source is separated into its different wavelengths 6.3.2.1 Continuous spectrum = rainbow of colors, containing light of all wavelengths 6.3.2.2 Some radiation sources give off light with only a few, speci ...
... 6.3.1 Monochromatic light = light of a single wavelength 6.3.2 Spectrum = when radiation from a source is separated into its different wavelengths 6.3.2.1 Continuous spectrum = rainbow of colors, containing light of all wavelengths 6.3.2.2 Some radiation sources give off light with only a few, speci ...
Unit 3
... Calculate the empirical formula of a compound that contains 56.4% phosphorus and 43.6% oxygen B. A compound contains 1.79g of phosphorus and 2.29g of oxygen. What is the empirical formula of the compound? C. It is found that 2.231 grams of selenium react with fluorine to form a selenium fluoride wit ...
... Calculate the empirical formula of a compound that contains 56.4% phosphorus and 43.6% oxygen B. A compound contains 1.79g of phosphorus and 2.29g of oxygen. What is the empirical formula of the compound? C. It is found that 2.231 grams of selenium react with fluorine to form a selenium fluoride wit ...
Chapter 1 Introduction: Physical Quantities, Units and Mathematical
... The sciences of electricity and magnetism developed separately for centuries – until 1820 when Oersted found an electric current in a wire can deflect a magnetic compass needle. The new science of electromagnetism (the combination of electrical and magnetic phenomena) was developed further by resear ...
... The sciences of electricity and magnetism developed separately for centuries – until 1820 when Oersted found an electric current in a wire can deflect a magnetic compass needle. The new science of electromagnetism (the combination of electrical and magnetic phenomena) was developed further by resear ...
Quantum Numbers, Orbitals, Electron Configurations, Periodic Trends
... How many significant figures are in each of the following numbers? a) 34.02 c) 10.50 e) 1.2340 × 107 b) 3300 d) 0.00342 f) 12340000 Convert the numbers is questions 1a – 1d into scientific notation. a) c) b) d) Convert the following numbers that are in scientific notation into decimal form. a) 1.234 ...
... How many significant figures are in each of the following numbers? a) 34.02 c) 10.50 e) 1.2340 × 107 b) 3300 d) 0.00342 f) 12340000 Convert the numbers is questions 1a – 1d into scientific notation. a) c) b) d) Convert the following numbers that are in scientific notation into decimal form. a) 1.234 ...
Energy and Matter in Chemical Change Science 10
... important to make sure that the water pressure (the controlled variable) is held constant. That's because both the water pressure and the opening of a faucet have an impact on how much water flows. If we change both of them at the same time, we can't be sure how much of the change in water flow is b ...
... important to make sure that the water pressure (the controlled variable) is held constant. That's because both the water pressure and the opening of a faucet have an impact on how much water flows. If we change both of them at the same time, we can't be sure how much of the change in water flow is b ...
practice exam available as a MS Word file
... Phenomena and significance of the quantum theory 1. Write a couple of sentences explaining what deBroglie’s hypothesis is, some experimental verifications of the hypothesis, and some significant consequences. DeBrogie hypothesized that if light can have particle-like properties (as well as wave-lik ...
... Phenomena and significance of the quantum theory 1. Write a couple of sentences explaining what deBroglie’s hypothesis is, some experimental verifications of the hypothesis, and some significant consequences. DeBrogie hypothesized that if light can have particle-like properties (as well as wave-lik ...
Paper
... physical regimes for ultracold atoms and semiconductors couldn’t be more different. In the experiment with ultracold atoms, the anomalous velocity is observed when the atomic cloud is placed in a lattice that is larger than the cloud, and the bulk motion is measured as the centre-of-mass displacemen ...
... physical regimes for ultracold atoms and semiconductors couldn’t be more different. In the experiment with ultracold atoms, the anomalous velocity is observed when the atomic cloud is placed in a lattice that is larger than the cloud, and the bulk motion is measured as the centre-of-mass displacemen ...
Chapter 12 Chemical Quantities
... 2C2 H6 7O2 4CO2 6H2O What volume of carbon dioxide can be produced from 1.2 moles of ethane gas at 200K and 0.65 atm? ...
... 2C2 H6 7O2 4CO2 6H2O What volume of carbon dioxide can be produced from 1.2 moles of ethane gas at 200K and 0.65 atm? ...
What is light
... • When it is hit, it ‘rings’ like a bell • Atoms ‘ring’ at their natural frequency: resonance • Each type of atom vibrates in a characteristic manner. ...
... • When it is hit, it ‘rings’ like a bell • Atoms ‘ring’ at their natural frequency: resonance • Each type of atom vibrates in a characteristic manner. ...
Lecture 13: Heisenberg and Uncertainty
... Quantum Mechanics The observer is not objective and passive The act of observation changes the physical system irrevocably This is known as subjective reality ...
... Quantum Mechanics The observer is not objective and passive The act of observation changes the physical system irrevocably This is known as subjective reality ...
January 2006
... J06E.2 - Half Rings of Magnetic Material Problem A ring with relative permeability µr = 400, minor radius a = 1.5 cm, and major radius R = 50 cm is placed on an horizontal (x-y) plane. The ring is cut transversally at two diametrically opposite points with the same x coordinate; the first half-ring ...
... J06E.2 - Half Rings of Magnetic Material Problem A ring with relative permeability µr = 400, minor radius a = 1.5 cm, and major radius R = 50 cm is placed on an horizontal (x-y) plane. The ring is cut transversally at two diametrically opposite points with the same x coordinate; the first half-ring ...
13.2 Chemical Formulas
... What is a chemical formula? Chemical formulas have two important parts: chemical symbols for the elements in the compound and subscripts that tell how many atoms of each element are needed to form the compound. The chemical formula for water, H2O, tells us that a water molecule is made of the elemen ...
... What is a chemical formula? Chemical formulas have two important parts: chemical symbols for the elements in the compound and subscripts that tell how many atoms of each element are needed to form the compound. The chemical formula for water, H2O, tells us that a water molecule is made of the elemen ...
Nuclear Phenomenology
... Fermi gas model. Assumptions • The potential that an individual nucleon feels is the superposition of the potentials of other nucleons. This potential has the shape of a sphere of radius R=R0A1/3 fm, equivalent to a 3-D square potential well with radius R • Nucleons move freely (like gas) inside th ...
... Fermi gas model. Assumptions • The potential that an individual nucleon feels is the superposition of the potentials of other nucleons. This potential has the shape of a sphere of radius R=R0A1/3 fm, equivalent to a 3-D square potential well with radius R • Nucleons move freely (like gas) inside th ...
Test - Regents
... Calculate the average atomic mass of element X. • Show a correct numerical setup in the space provided in your answer booklet. • Record your answer. [1] • Express your answer to the correct number of significant figures. [1] ...
... Calculate the average atomic mass of element X. • Show a correct numerical setup in the space provided in your answer booklet. • Record your answer. [1] • Express your answer to the correct number of significant figures. [1] ...
Atomic theory
In chemistry and physics, atomic theory is a scientific theory of the nature of matter, which states that matter is composed of discrete units called atoms. It began as a philosophical concept in ancient Greece and entered the scientific mainstream in the early 19th century when discoveries in the field of chemistry showed that matter did indeed behave as if it were made up of atoms.The word atom comes from the Ancient Greek adjective atomos, meaning ""uncuttable"". 19th century chemists began using the term in connection with the growing number of irreducible chemical elements. While seemingly apropos, around the turn of the 20th century, through various experiments with electromagnetism and radioactivity, physicists discovered that the so-called ""uncuttable atom"" was actually a conglomerate of various subatomic particles (chiefly, electrons, protons and neutrons) which can exist separately from each other. In fact, in certain extreme environments, such as neutron stars, extreme temperature and pressure prevents atoms from existing at all. Since atoms were found to be divisible, physicists later invented the term ""elementary particles"" to describe the ""uncuttable"", though not indestructible, parts of an atom. The field of science which studies subatomic particles is particle physics, and it is in this field that physicists hope to discover the true fundamental nature of matter.