martin

Question 1

what are multi scale methods?

Answer 1

When small scale and large scale calculations are run simultaneously

Question 2

what are continuum methods?

Answer 2

only dielectric medium, no atoms

Question 3

what is a force field?

Answer 3

Sum of intramolecular and intermolecular interactions

Question 4

what is the born oppenheimer assumption?

Answer 4

Electrons move faster than nuclei so the nuclei can be considered as stationary and the electrons are moving in the constant potential energy field.

Question 5

explain the molecular mechanic explanation why eletcron electron interactions can be ignored?

Answer 5

electrons move so fast that we only see an average distribution of electrons around a nucleus. If we are only interested in nuclei positions we can consider only nuclei - nuclei interactions.

Question 6

`give the equation for hookes law?

Answer 6

E = 0.5K (X - Xo)^2

Question 7

what is storic energy?

Answer 7

The amount of strain in a molecules bond length

Question 8

what is the equation for force relating to hookes law?

Answer 8

F = -K (x-xo)

Question 9

what happens is x= xo
x>xo
x < xo

Answer 9

when x and xo are = the atoms are in ideal positions
when x is greater than xo then F<0 and pushes atoms to left .
when x is less than xo then F > 0 and force drives atom to right

Question 10

what are the advantages of quantum mechanics?

Answer 10

Rigorous description of ee and e nuclei interactions
Abinito- no experimental input
can cope with new structures
only method for electronic properties

Question 11

disadvantages of quantum mechanics?

Answer 11

slow

to solve Schrodinger equation needs high accuracy of qm

Question 12

disadvantages of quantum mechanics?

Answer 12

slow

to solve Schrodinger equation needs high accuracy of qm

Question 13

advantages of molecular mechanics?

Answer 13

v fast
allows dynamics of molecules to be studied
applicable to large systems
if properly paramertised then can be as accurate as QM

Question 14

what are the disadvantages of molecular mechanics?

Answer 14

parameters need to be chosen
cant cope with new structures
QM of experiment needs to be done first
applicable to describing molecules not electronic properties

Question 15

when to use quantum mechanics?

Answer 15

for electronic properties

MO, excited states, light absorptions, bond rearrangement and charge transfer

Question 16

when to use to molecular mechanics?

Answer 16

large systems, large molecules (Bimolecular), dymanics of molecules, molecules in solution, organic inorganic interfaces and metal organic molecules.

Question 17

what the three bending terms?

Answer 17

Stretch, bending and torsional

Question 18

what is the equation for steric energy?

Answer 18

E = Estretch + Ebend + Etorsion

Question 19

name the three out of plane terms?

Answer 19

Non planar molecules
Cross terms - bond deformations affect electron distribution
stretch bend vibrations - these are usually small so not used in force fields

Question 20

give all the oxygen atom types

Answer 20

O alcohol, O ether, O in C=O in cooh , C-O in COOh

Question 21

give all the nitrogen atom types

Answer 21

N sp3 - Nh3 or NHR2
N sp2 - 2 atoms bonded
N sp3 - 1 atom bonded

Question 22

give all the sulphur atom types

Answer 22

-s- sulfide 
s=o sulfoxide
si - silane
s+ - sulfonium 
So2 - sulfone

Question 23

what is the overall equation for Einter interactions?

Answer 23

Eelec + Evdv + Eh-bond

Question 24

at large distances dipole dipole interactions can be ignored, why?

Answer 24

1/R3 falls to zero more faster than 1/R

Question 25

give the lennard jones potential and what is it used to describe?

Answer 25

Non bonded interaction
r = distance between atoms
Ro - the distance where the interaction energy = 0

Question 26

give the buckingham potential

Answer 26

Ae-br - c/r6

Question 27

why is water a special case?

Answer 27

H (sigma + charge), O and lp
different force field have been developed
format uses lennard jones and electrostatic potential

Question 28

describe the parameter fitting procedure?

Answer 28

1. choose reliable value of molecular properties
2. choose initial values of FF parameters
3. use these values to calculate target properties
4. are the desired properties produced (if no update parameters and go back to 3.)
5. parameter fitting complete
6. run calculation

Question 29

true or false: you can take parameters from one force field and paste them into another force field

Answer 29

false

Question 30

describe the potential energy curve?

Answer 30

E vs r(ang) which goes through a minimum

Question 31

describe the potential energy surface?

Answer 31

Polyatomic molecules
Vertical axis is energy and horizontal is internal coordinates = 3N-6
as molecules have many internal coordinates the PES is plotted in many dimensions which is often difficult and hard to obtain

Question 32

what are saddle points and which is the most interesting?

Answer 32

where they are minima in one direction but maxima in another direction, the most interesting is the transition state where it is a minima in all directions but 1

Question 33

what’s the difference between global and local minima?

Answer 33

The global minima is the deepest minimum and is most stable

Question 34

describe the process of conformational search to find the energy minima of a diatomic molecule?

Answer 34

Choose a grid of r values
find E(r) for each value of r
plot E vs r

Question 35

describe the process of conformational search to find the energy minima of a polyatomic molecule?

Answer 35

1-3 internal coordinates
define grid values for these coordinates
calculate energies at each point of this grid
plot as a contour plot or 3D plot

Question 36

what are the advantages and disadvantages of conformation search in finding the minima?

Answer 36

Find all minima including global and local
easy to automate and analyse
slow
certain coordinates may be important in different conformation, therefore, some minima may be missed if bad set of coordinates chosen

Question 37

what are gradient based methods set on?

Answer 37

The potential energy as a function of all the internal coordinates

Question 38

what does the gradient of energy signify?

Answer 38

1st derivative of energy wrt all internal coordinates

Question 39

what does the gradient tell you?

Answer 39

How fast the energy decreases and what direction is the fastest decrease
for 1D grad (Eq) = -force
poly - gradient is a column of value. forces on all atoms

Question 40

Describe what hessian is?

Answer 40

2nd derivative of energy
physical meaning = force constant K
it is the curvature of parabola or the curvature of PES

Question 41

describe the steepest descent method?

Answer 41

1. choose a suitable starting structure
2. calculate gradient —-> find the steepest descent
3. make a step in that direction
4. repeat steps 2 and 3 until convergence is reached

Question 42

what are the disadvantages and advantages of steepest descent method?

Answer 42

slow compared to more sophisticated methods especially if PES is narrow
fast compared to conformation search
robust - finds minima

Question 43

describe the conjugate gradient method?

Answer 43

uses information on the gradient from previous steps, therefore, is a more efficient direction towards the minima

Question 44

what are the advantages and disadvantages of the conjugate gradient method?

Answer 44

fast and efficient. is less efficient if close to the minimum

Question 45

which minima do conformation search, PEs and gradient methods find?

Answer 45

local minima

Question 46

finish this sentence: MD is a computational approach…..

Answer 46

that simulates the movement of atoms. MD simulations overcome potential energy barriers and explore various energy minima.

Question 47

how does MD work?

Answer 47

Approach:
1. Construct several starting structures.
2. Choose an appropriate force field.
3. Run molecular dynamics (MD).
4. Find the lowest-energy structure from
several independent MD runs

Question 48

how are accelerations calculated in the verlet algorithm?

Answer 48

via newtons law a= F/m

Question 49

How are velocities calculated using the verlet algorithm?

Answer 49

give equation

Question 50

what are the drawbacks of the verlet algorithm?

Answer 50

Positions at t and Δt need to be known before the start of the simulation.
need to calculate the difference of large terms x(t) and x(t+Δt) which is source of error

Question 51

how to improve the verlet algorithm and what is the advantage of it?

Answer 51

calculate new positions via velocities and accelerations.
calcite forces and accelerations at (t+Δt) and then velocities calculated in two steps:
1/2 t using v(t+0.5Δt) = v(t) + a(t) x 1/2Δt
then at a(t+Δt) by v(t+Δt) = v(t+1/2Δt) + a(t+ Δt) x 1/2Δt
do not need to store previous coordinates meaning that a lower memory is required

Question 52

what is the ergodic theorem?

Answer 52

The time average of an observable property is the same as the ensemble average of the same property.

Question 53

what is the ensemble average?

Answer 53

a measurement which is done simultaneously on a large number of systems

Question 54

how many times are time average measurements made?

Answer 54

many times - ideally infinite times

Question 55

how are macroscopic properties measured?

Answer 55

can determine a macroscopic property by observing the coordinated and momenta of each atom

Question 56

what does the choice of ensemble depend on?

Answer 56

The parameter which is kept constant

Question 57

describe the NVE ensemble

Answer 57

(Microcanonical)no. of molecules, volume and total energy kept constant. copies of system do no exchange energy with each other.

Question 58

describe the NVT ensemble?

Answer 58

(canonical or isochoric -isothermal) constant no of molecules, volume and temp. this is a realistic situation. a thermostat is needed to maintain constant temp

Question 59

describe the NPT ensemble

Answer 59

(isobaric- isothermal) constant no of molecules, pressure and temp. realistic situation for high gases or high pressured systems. a mechanism is needed to maintain constant temp and pressure.

Question 60

describe the µVT ensemble?

Answer 60

(grand canonical) the chemical potential is kept constant but N varies.
infinite reservoir of molecules. this is not used in MD

Question 61

which ensembles are used in MD and which for macroscopic properties?

Answer 61

all of them are suitable for macroscopic properties.

NVT and NPT

Question 62

what are the drawbacks with MD simulations of liquids?

Answer 62

finite volume and surface of cluster behave differently from the bulk.

Question 63

how does a periodic box work for MD simulations of liquids?

Answer 63

The cell is surrounded on all sides by identical cells. Each molecule interacts with its neighbours both in its in cell and with image cells, therefore, there is no surface and an infinite volume of liquid.

Question 64

give the procedure for setting up and running MD simulations?

Answer 64

choose an appropriate force field 
build several starting structures 
choose simulation parameters 
-time step 
-length of simulation 
- ensemble 
- thermostat 
run MD simulation 
analyse results for serveral simulations

Question 65

what information is obtained from MD?

Answer 65

structure and dynamics of molecules, conformations of molecules?

Question 66

MD can be applied to…..

Answer 66

liquids, solutions and solid liquid interface

Question 67

what does RDF tell you?

Answer 67

tell us how many particles there are at a distance r. within a thin layer r and (r+Δr) for some randomly chose particle

Question 68

how is simulated annealing used in MD?

Answer 68

Changes to structures are either rejected or accepted depending on whether they lower the energy of the system

Question 69

What is the process of simulated annealing combined with MD?

Answer 69

Starting temp chosen and the starting velocities corresponding to this temp are assigned to atoms
atoms move according to newtons` law of motion
atoms have high velocities and therefore high KE so are able to overcome potential energy barriers
The systems stay in one minima

Question 70

what are the disadvantages and advantages of Sim anneal?

Answer 70

guaranteed to find global minima if cooling is done infinitely slowly
may still get stuck in local minima

Question 71

how does metadynamics ensure that the sytems doesn not get trapped in the local minima?

Answer 71

History dependent potential is constructed

explored minima from PES is filled with guassian functions so that they are not revisited again

Question 72

describe the process of meta dynamics?

Answer 72

1. select an appropriate collectibe variable s(x)
2. vary the value of this collective using MD
3. at each step (t) and each coordinate calculate the gaussian function
4. add all the gaussian functions to find the total potential at coordinate s(x)
   the value of s(x) visted the most has the largest value of the potential and is therefore the global minima

Question 73

how does the monte carlo method follow the evolution of a system?

Answer 73

Trying and accepting (or rejecting) randomly chosen moves of particles

Question 74

Describe the process of the monte carlo method?

Answer 74

1. create starting distrubution of N particles and define the laws that controls particle interactions and chose temp
2. create a list of possible moves
3. choose a move at random
4. calculate the energy change
   does this lower the energy of the system
5. if yes then accept and repeat steps 3-5, if no then accept with a probablility and repeat steops 3-5

Question 75

give the kinetic monte carlo method?

Answer 75

1. first step as the monte carlo + set t=o
2. create a list of moves and barriers for these moves for the N particles. calculate the sum of all rates
3. choose move at random
   4.carry put move
4. Generate another random number r2
5. Update the time as t = t + Δt, where Δt = ln(1/r2
   )/R
   repeat from step 2