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Review - Worth County Schools
... Momentum • A measure of how hard it is to stop a moving object. • Related to both mass and velocity. • Possessed by all moving objects. ...
... Momentum • A measure of how hard it is to stop a moving object. • Related to both mass and velocity. • Possessed by all moving objects. ...
ysics P2 Graded Task Bungee Jumping with equations
... Draw a velocity time graph of the jumpers fall using the information in the box above. Calculate the momentum of the jumper when they are at 20m/s. Calculate the kinetic energy of the jumper at this velocity. The bungee cord stretches as he falls. Name the energy stored in the cord. ...
... Draw a velocity time graph of the jumpers fall using the information in the box above. Calculate the momentum of the jumper when they are at 20m/s. Calculate the kinetic energy of the jumper at this velocity. The bungee cord stretches as he falls. Name the energy stored in the cord. ...
Electric Circuits
... 8. Complete this statement: energy cannot be created or destroyed, it just _____________ __________________. 9. When a pilot puts gas in his plane, not all of the fuel goes to making the plane move. Where does the rest of the energy go? ...
... 8. Complete this statement: energy cannot be created or destroyed, it just _____________ __________________. 9. When a pilot puts gas in his plane, not all of the fuel goes to making the plane move. Where does the rest of the energy go? ...
Quarter Exam (Old Test)
... a. average atomic mass c. atomic number b. mass number d. nucleus number ____ 52. Who predicted that all matter can behave as waves as well as particles? a. Louis de Broglie c. Max Planck b. Albert Einstein d. Erwin Schrodinger ____ 53. Which of the following is the correct name for N O ? a. nitrous ...
... a. average atomic mass c. atomic number b. mass number d. nucleus number ____ 52. Who predicted that all matter can behave as waves as well as particles? a. Louis de Broglie c. Max Planck b. Albert Einstein d. Erwin Schrodinger ____ 53. Which of the following is the correct name for N O ? a. nitrous ...
Physics 11 Final Exam Outline
... -Compare and describe the properties of electromagnetic radiation and sound -Describe how sound and electromagnetic radiation, as forms of energy transfer, are produced and transmitted define three types of waves, particularly mechanical electromagnetic ...
... -Compare and describe the properties of electromagnetic radiation and sound -Describe how sound and electromagnetic radiation, as forms of energy transfer, are produced and transmitted define three types of waves, particularly mechanical electromagnetic ...
HL Chemistry: Notes Atomic Theory
... The EM spectrum is a list of the types of EM radiation and their corresponding wavelengths including: gamma rays, X-ray, UV, visible, IR, microwaves, and radio waves. Spectroscopes separate white light into its’ component colors to form the continuous color spectrum (visible spectrum). 3. quantized ...
... The EM spectrum is a list of the types of EM radiation and their corresponding wavelengths including: gamma rays, X-ray, UV, visible, IR, microwaves, and radio waves. Spectroscopes separate white light into its’ component colors to form the continuous color spectrum (visible spectrum). 3. quantized ...
3,2,1 1 1 2 = −= −= nn E n ekm E Only memorize the second form.
... For the quizzes and tests, you should know all the concepts and equations in this summary. Section 28.3: The Bohr Atom The Bohr model of the atom is successful in describing the spectra of atomic hydrogen and hydrogen-like ions. One of the basic assumptions of the model is that the electron can exis ...
... For the quizzes and tests, you should know all the concepts and equations in this summary. Section 28.3: The Bohr Atom The Bohr model of the atom is successful in describing the spectra of atomic hydrogen and hydrogen-like ions. One of the basic assumptions of the model is that the electron can exis ...
No Slide Title
... is referred to as the state function or the wavefunction. It contains all the information that can be determined about the system. Furthermore , we require that (x, y, z, t) be single valued, continuous, differentiable to all orders, and quadratically integrable ...
... is referred to as the state function or the wavefunction. It contains all the information that can be determined about the system. Furthermore , we require that (x, y, z, t) be single valued, continuous, differentiable to all orders, and quadratically integrable ...
Ladder Operators
... of solving the TISE for the simple harmonic oscillator. The bad news, though, is that no such elegant method exists for solving the TISE for other one-dimensional potential functions; the method worked here only because the Hamiltonian is quadratic in both p and x, allowing it to be factored, aside ...
... of solving the TISE for the simple harmonic oscillator. The bad news, though, is that no such elegant method exists for solving the TISE for other one-dimensional potential functions; the method worked here only because the Hamiltonian is quadratic in both p and x, allowing it to be factored, aside ...
Wednesday, Feb. 25, 2015
... Definition: Incident electromagnetic radiation shining on a metal transfers energy to the electrons, allowing them to escape the surface of the metal. Ejected electrons are called photoelectrons. Other methods of electron emission: • Thermionic emission: Application of heat allows electrons to gain ...
... Definition: Incident electromagnetic radiation shining on a metal transfers energy to the electrons, allowing them to escape the surface of the metal. Ejected electrons are called photoelectrons. Other methods of electron emission: • Thermionic emission: Application of heat allows electrons to gain ...
Presentation #8
... The vector must be oriented with respect to the (arbitrary) z-axis such that its projection thereon is equal to a length of ml units. This result means that the plane of rotation of the particle on the sphere is restricted in its spatial orientation Thus, contrary to what classical physics tells us, ...
... The vector must be oriented with respect to the (arbitrary) z-axis such that its projection thereon is equal to a length of ml units. This result means that the plane of rotation of the particle on the sphere is restricted in its spatial orientation Thus, contrary to what classical physics tells us, ...
Ch 8 HW Day 4: p 254 – 265, #`s 5, 11 – 15, 18, 21, 67, 71 – 74
... Picture the Problem. We can find the velocity of the center of mass from the definition of the total momentum of the system. We’ll use conservation of energy to find the maximum compression of the spring and express the initial (i.e., before collision) and final (i.e., at separation) velocities. Fin ...
... Picture the Problem. We can find the velocity of the center of mass from the definition of the total momentum of the system. We’ll use conservation of energy to find the maximum compression of the spring and express the initial (i.e., before collision) and final (i.e., at separation) velocities. Fin ...