Topic 1 - The Nature of Light
... must be ejected from the metal….Electrons emitted INSTANTANEOUSLY even for the lowest intensity of light •If the frequency of the incident light is below the threshold frequency, no electrons emitted, no matter how intense the light is. •If light were behaving entirely like a classical EM wave, its ...
... must be ejected from the metal….Electrons emitted INSTANTANEOUSLY even for the lowest intensity of light •If the frequency of the incident light is below the threshold frequency, no electrons emitted, no matter how intense the light is. •If light were behaving entirely like a classical EM wave, its ...
Momentum
... G.P.E. or U = mgh where m is mass (kg) and h is height above the origin level (m). The origin position (h = 0) can be freely chosen U is always relative to some reference level or position. Example: A 1.0 kg mass is held 10 m above the ground. Find its G.P.E. relative to the ground. [U = 1.0 kg ( 9. ...
... G.P.E. or U = mgh where m is mass (kg) and h is height above the origin level (m). The origin position (h = 0) can be freely chosen U is always relative to some reference level or position. Example: A 1.0 kg mass is held 10 m above the ground. Find its G.P.E. relative to the ground. [U = 1.0 kg ( 9. ...
Momentum
... The larger and objects mass the harder it is to slow down. The faster and object goes the harder it is to slow down. ...
... The larger and objects mass the harder it is to slow down. The faster and object goes the harder it is to slow down. ...
summary 2015
... Rotational Mechanics and Relativity --- Summary sheet 12 The Energy-Momentum invariant: We think of x and ct as two components of a spacetime four-vector, and that the ‘length’ or norm of this four-vector was invariant under the Lorentz transformation, i.e. In the same way, p and E/c are also compo ...
... Rotational Mechanics and Relativity --- Summary sheet 12 The Energy-Momentum invariant: We think of x and ct as two components of a spacetime four-vector, and that the ‘length’ or norm of this four-vector was invariant under the Lorentz transformation, i.e. In the same way, p and E/c are also compo ...
2/a
... • In classical mechanics the state of a system with a number of particles at any time is defined by designating the particle and momentum coordinates of all particles. • In quantum mechanics the state of a system is defined by a state function Ψ that contains all the information we can obtain about ...
... • In classical mechanics the state of a system with a number of particles at any time is defined by designating the particle and momentum coordinates of all particles. • In quantum mechanics the state of a system is defined by a state function Ψ that contains all the information we can obtain about ...
eprint_2_12779_167
... contains all the information about that system from which the history and full description for that system may be derived. 1.1 The particle system:The equation of motion of particle system is Newton’s Second Law. This law states that "The force acting on the system (F) is equal to the mass of the sy ...
... contains all the information about that system from which the history and full description for that system may be derived. 1.1 The particle system:The equation of motion of particle system is Newton’s Second Law. This law states that "The force acting on the system (F) is equal to the mass of the sy ...
Electromagnetic Waves
... ! One way to make a polarizer is to use a material that consists of long parallel chains of molecules that effectively only let light pass if it has a certain direction of polarization and block it if it has a polarization in the perpendicular direction ! We will discuss polarizers without taking i ...
... ! One way to make a polarizer is to use a material that consists of long parallel chains of molecules that effectively only let light pass if it has a certain direction of polarization and block it if it has a polarization in the perpendicular direction ! We will discuss polarizers without taking i ...
Maak onderstaande opgaven. Vermeld bij opgaven waar gerekend
... Electromagnetic waves are radiated uniformly in all directions from a source. The rms electric field of the waves is measured 35 km from the source to have an rms value of 0.42 N/C. Determine the average total power radiated by the source. (a) 4.1 × 105 W (c) 3.0 × 106 W (e) 1.7 × 107 W ...
... Electromagnetic waves are radiated uniformly in all directions from a source. The rms electric field of the waves is measured 35 km from the source to have an rms value of 0.42 N/C. Determine the average total power radiated by the source. (a) 4.1 × 105 W (c) 3.0 × 106 W (e) 1.7 × 107 W ...
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... Assume that the particles are distinguishable. Show that the canonical partition function factorizes and calculate the free energy. Assume now that the particles are identical fermions. Evaluate the can ...
... Assume that the particles are distinguishable. Show that the canonical partition function factorizes and calculate the free energy. Assume now that the particles are identical fermions. Evaluate the can ...
Waves & Oscillations Physics 42200 Spring 2014 Semester Lecture 30 – Electromagnetic Waves
... – Light inconsistent with longitudinal waves in an ethereal medium – Still an excellent approximation when feature sizes are large compared with the wavelength of light ...
... – Light inconsistent with longitudinal waves in an ethereal medium – Still an excellent approximation when feature sizes are large compared with the wavelength of light ...
Energy and Momentum
... The conservation of momentum states that, within some problem domain, the amount of momentum remains constant; momentum is neither created nor destroyed, but only changed through the action of forces as described by Newton's laws of motion. ...
... The conservation of momentum states that, within some problem domain, the amount of momentum remains constant; momentum is neither created nor destroyed, but only changed through the action of forces as described by Newton's laws of motion. ...
