User contributions for Hhc16

14:3014:30, 18 November 2018 diff hist −1 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:2914:29, 18 November 2018 diff hist +10 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:2814:28, 18 November 2018 diff hist 0 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:2714:27, 18 November 2018 diff hist 0 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:2314:23, 18 November 2018 diff hist 0 N File:Energy() hhsc.png No edit summary current
14:2314:23, 18 November 2018 diff hist +129 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:1914:19, 18 November 2018 diff hist +1 Rep:Simulations of a 2D Ising Model (hhc16) →Energy and Magnetisation Calculations
14:1914:19, 18 November 2018 diff hist +1 Rep:Simulations of a 2D Ising Model (hhc16) →The Model
14:1714:17, 18 November 2018 diff hist −5 Rep:Simulations of a 2D Ising Model (hhc16) →Energy and Magnetisation Calculations
14:1714:17, 18 November 2018 diff hist −1 Rep:Simulations of a 2D Ising Model (hhc16) →TASK: Calculate the magnetisation of the 1D and 2D lattices below. What magnetisation would you expect to observe for an Ising lattice with D = 3,\ N=1000 at absolute zero?
14:1614:16, 18 November 2018 diff hist +159 Rep:Simulations of a 2D Ising Model (hhc16) →Phase Transition
14:1014:10, 18 November 2018 diff hist +15 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
14:0814:08, 18 November 2018 diff hist −6 Rep:Simulations of a 2D Ising Model (hhc16) →Phase Transition
14:0314:03, 18 November 2018 diff hist −81 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
14:0014:00, 18 November 2018 diff hist 0 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
13:5913:59, 18 November 2018 diff hist 0 N File:Energyincrease HHSC.png No edit summary current
13:5813:58, 18 November 2018 diff hist +6 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
13:5713:57, 18 November 2018 diff hist +219 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
13:5513:55, 18 November 2018 diff hist +273 Rep:Simulations of a 2D Ising Model (hhc16) →Introduction
13:4313:43, 18 November 2018 diff hist +616 Rep:Simulations of a 2D Ising Model (hhc16) →Introduction
12:1012:10, 18 November 2018 diff hist −19 Rep:Simulations of a 2D Ising Model (hhc16) →The Effect of System Size
12:0912:09, 18 November 2018 diff hist 0 N File:Python MagvsEn.gif No edit summary current
12:0912:09, 18 November 2018 diff hist +232 Rep:Simulations of a 2D Ising Model (hhc16) →The Effect of System Size
12:0812:08, 18 November 2018 diff hist +2 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
12:0712:07, 18 November 2018 diff hist +58 Rep:Simulations of a 2D Ising Model (hhc16) →The Effect of System Size

12:2912:29, 16 November 2018 diff hist +2 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:2612:26, 16 November 2018 diff hist +8 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:2612:26, 16 November 2018 diff hist +44 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:2412:24, 16 November 2018 diff hist +21 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:1612:16, 16 November 2018 diff hist +2 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:1512:15, 16 November 2018 diff hist +4 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:1512:15, 16 November 2018 diff hist +58 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
12:0212:02, 16 November 2018 diff hist +222 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
11:5611:56, 16 November 2018 diff hist +188 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: How many configurations are available to a system with 100 spins? To evaluate these expressions, we have to calculate the energy and magnetisation for each of these configurations, then perform the sum. Let's be very, very, generous, and say t...

18:1618:16, 15 November 2018 diff hist +371 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
16:0216:02, 15 November 2018 diff hist +67 Rep:Simulations of a 2D Ising Model (hhc16) →The Heat Capacity
15:1615:16, 15 November 2018 diff hist 0 Rep:Simulations of a 2D Ising Model (hhc16) →Modifying the Files
15:1515:15, 15 November 2018 diff hist +215 Rep:Simulations of a 2D Ising Model (hhc16) →Phase Transition
15:0715:07, 15 November 2018 diff hist +40 Rep:Simulations of a 2D Ising Model (hhc16) →Phase Transition
14:3614:36, 15 November 2018 diff hist +57 Rep:Simulations of a 2D Ising Model (hhc16) →Average Energy and Magnetisation
14:2614:26, 15 November 2018 diff hist +1 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:2514:25, 15 November 2018 diff hist −1 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: complete the functions energy() and magnetisation(), which should return the energy of the lattice and the total magnetisation, respectively. In the energy() function you may assume that J=1.0 at all times. The efficiency of the code will be...
14:2514:25, 15 November 2018 diff hist +350 Rep:Simulations of a 2D Ising Model (hhc16) →Energy and Magnetisation Calculations
13:5413:54, 15 November 2018 diff hist −26 Rep:Simulations of a 2D Ising Model (hhc16) →TASK: Calculate the magnetisation of the 1D and 2D lattices below. What magnetisation would you expect to observe for an Ising lattice with D = 3,\ N=1000 at absolute zero?
13:5313:53, 15 November 2018 diff hist +153 Rep:Simulations of a 2D Ising Model (hhc16) →TASK: Calculate the magnetisation of the 1D and 2D lattices below. What magnetisation would you expect to observe for an Ising lattice with D = 3,\ N=1000 at absolute zero?
13:4713:47, 15 November 2018 diff hist −15 Rep:Simulations of a 2D Ising Model (hhc16) →Introduction
13:4713:47, 15 November 2018 diff hist +721 Rep:Simulations of a 2D Ising Model (hhc16) →TASK: Calculate the magnetisation of the 1D and 2D lattices below. What magnetisation would you expect to observe for an Ising lattice with D = 3,\ N=1000 at absolute zero?
13:1813:18, 15 November 2018 diff hist −17 Rep:Simulations of a 2D Ising Model (hhc16) →Phase Transition
13:1713:17, 15 November 2018 diff hist −1 Rep:Simulations of a 2D Ising Model (hhc16) /* TASK: Imagine that the system is in the lowest energy configuration. To move to a different state, one of the spins must spontaneously change direction ("flip"). What is the change in energy if this happens (D=3,\ N=1000)? How much entropy does the...
13:1613:16, 15 November 2018 diff hist +59 Rep:Simulations of a 2D Ising Model (hhc16) →Phase Transition

18 November 2018

16 November 2018

15 November 2018