Introduction to Electromagnetism
... and conservation of angular momentum 2.3 Kepler’s Laws: we derived K3 from N2: 4p2r3 = GMT2 We derived the Schwarzschild radius for a black hole; we weighed Jupiter and the Sun using orbital satellites, and we discovered dark matter in Galaxies from non-Keplerian ...
... and conservation of angular momentum 2.3 Kepler’s Laws: we derived K3 from N2: 4p2r3 = GMT2 We derived the Schwarzschild radius for a black hole; we weighed Jupiter and the Sun using orbital satellites, and we discovered dark matter in Galaxies from non-Keplerian ...
No Slide Title
... (ie, random coil) • ~ uniform charge/mass ratio due to SDS • therefore endogenous charge and shape are not major factors • mobility is inverse of mass (charge) mobility (voltage) (mass) ...
... (ie, random coil) • ~ uniform charge/mass ratio due to SDS • therefore endogenous charge and shape are not major factors • mobility is inverse of mass (charge) mobility (voltage) (mass) ...
light is a wave
... • If a molecule is hit, the atoms within a molecule vibrate. • Because atoms are thousands of times heavier than electrons they ‘ring’ with a much lower frequencies. • The light given off is in the infra red range of the spectrum. ...
... • If a molecule is hit, the atoms within a molecule vibrate. • Because atoms are thousands of times heavier than electrons they ‘ring’ with a much lower frequencies. • The light given off is in the infra red range of the spectrum. ...
Slide 1
... Two polynucleotide strands wrap around each other to form a DNA double helix – The two strands are associated because particular bases always hydrogen bond to one another ...
... Two polynucleotide strands wrap around each other to form a DNA double helix – The two strands are associated because particular bases always hydrogen bond to one another ...
Structure of Rod and cones cells in retins - Home
... Vision is based on the absorption of light by photoreceptors cells in the eye. These cells are sensitive to a narrow range of electromagnetic range of 300-850nm. Vertebrates have two types of photoreceptors cells Rods & Cones because of their distinctive structure. Human retina contains about 3 mill ...
... Vision is based on the absorption of light by photoreceptors cells in the eye. These cells are sensitive to a narrow range of electromagnetic range of 300-850nm. Vertebrates have two types of photoreceptors cells Rods & Cones because of their distinctive structure. Human retina contains about 3 mill ...
PURDUE UNIVERSITY PHYS221 FINAL EXAM
... The motion of charge Cosmic rays Light’s interaction with matter ...
... The motion of charge Cosmic rays Light’s interaction with matter ...
Light and Blackbody radiation
... A. Star A B. Star B C. Can’t say • Which star is emitting the most light per area? A. Star A B. Star B C. Can’t say • Which star has the highest luminosity? A. Star A B. Star B C. Can’t say ...
... A. Star A B. Star B C. Can’t say • Which star is emitting the most light per area? A. Star A B. Star B C. Can’t say • Which star has the highest luminosity? A. Star A B. Star B C. Can’t say ...
tutorial4_scoringMatices
... Si,j represents the gain/penalty due to substituting AAj by AAi (i – line , j – colomn) ...
... Si,j represents the gain/penalty due to substituting AAj by AAi (i – line , j – colomn) ...
![pfb13_week2[1]](http://s1.studyres.com/store/data/003391392_1-89916bc801a4df63071018672e6152f2-300x300.png)
Discussion Session 14 1 Conceptual Questions
... (c) Suppose that the wave vector ~k had an imaginary part, such that ~k = ~kRe + i~kIm , where ~kRe and ~kIm are the real and imaginary parts of the wave vector, respectively. Explain the effect of the imaginary part on the wave, and give a physical example of where this occurs. ~ = A0 sin(kx − ωt)ˆ ...
... (c) Suppose that the wave vector ~k had an imaginary part, such that ~k = ~kRe + i~kIm , where ~kRe and ~kIm are the real and imaginary parts of the wave vector, respectively. Explain the effect of the imaginary part on the wave, and give a physical example of where this occurs. ~ = A0 sin(kx − ωt)ˆ ...
Document
... • Threading: Align sequence to structure (templates) For each alignment, the probability that that each amino acid residue would occur in such an environment is calculated based on observed preferences in determined structures. § Rationale: • Limited number of basic folds found in nature • Amino aci ...
... • Threading: Align sequence to structure (templates) For each alignment, the probability that that each amino acid residue would occur in such an environment is calculated based on observed preferences in determined structures. § Rationale: • Limited number of basic folds found in nature • Amino aci ...
No Slide Title
... • If a molecule is hit, the atoms within a molecule vibrate. • Because atoms are thousands of times heavier than electrons they ‘ring’ with a much lower frequencies. • The light given off is in the infra red range of the spectrum. ...
... • If a molecule is hit, the atoms within a molecule vibrate. • Because atoms are thousands of times heavier than electrons they ‘ring’ with a much lower frequencies. • The light given off is in the infra red range of the spectrum. ...
simplified models for proteins in coarse
... Why coarse-graining? it allows to explore larger systems and timescales It is convenient to have a transferable potential, suitable for different systems Objective: a potential as transferable as the atomistic force fields. 1- A coarse grained potential can be systematically constructed from atomist ...
... Why coarse-graining? it allows to explore larger systems and timescales It is convenient to have a transferable potential, suitable for different systems Objective: a potential as transferable as the atomistic force fields. 1- A coarse grained potential can be systematically constructed from atomist ...
Circular dichroism
Circular dichroism (CD) is dichroism involving circularly polarized light, i.e., the differential absorption of left- and right-handed light. Left-hand circular (LHC) and right-hand circular (RHC) polarized light represent two possible spin angular momentum states for a photon, and so circular dichroism is also referred to as dichroism for spin angular momentum. This phenomenon was discovered by Jean-Baptiste Biot, Augustin Fresnel, and Aimé Cotton in the first half of the 19th century. It is exhibited in the absorption bands of optically active chiral molecules. CD spectroscopy has a wide range of applications in many different fields. Most notably, UV CD is used to investigate the secondary structure of proteins. UV/Vis CD is used to investigate charge-transfer transitions. Near-infrared CD is used to investigate geometric and electronic structure by probing metal d→d transitions. Vibrational circular dichroism, which uses light from the infrared energy region, is used for structural studies of small organic molecules, and most recently proteins and DNA.