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Math Help - Simplification questions...

  1. #1
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    Simplification questions...

    I am revising my math in preparation for a degree course, and, searching through the internet found an interesting tutorial at http://www.mathsrevision.net/alevel/pages.php?page=9,

    1. I am trying to understand the simplification of the following formula:

    (x^2 + 5x -3) / 3x^1/2

    divide all by 3x^1/2

    x/3^3/2 + 5/3x^1/2 = x^1/2; the last calculation I made does not agree with the article, and, I have calculated as follows: 3^1 / 3x^1/2 = 1x^-1/2.

    However the simplification within the article reads:
    x + (5/6)x- + x
    -3/2

    Is my calculation incorrect? Why?

    2. Do you know of user-friendly software that draws graphs, equations and represents mathematical formulae?

    So far my tutor has suggested Graphmatica
    (Graphmatica by kSoft), however it seems to have limited functionality.

    OpenOffice also has one program for displaying formulae, however, I can't seem to find software that is able to read formulae and present them in a way that is formatted for presentation (such as integrating OpenOffice Math and Graphmatica), are you aware of any?

    Does MS Office (e.g Excel) help with algebra? Any formulae you use regularly? Any plugins?

    3. Can you remind me what the relationship is between sine and cosine, tangent and co-tangent etc, and, how they apply in business and real-world applications?

    4. I was trying to write a poker program in Java, however, I was stuck at trying to find a mathematical correlation between the rules of the game and trying to find common factors between cards. Information about poker at Poker - Wikipedia, the free encyclopedia. Source code (for those who read Java)

    package poker;


    public class Card {


    public Card(Suit suit, Rank rank) {
    this.suit = suit;
    this.rank = rank;


    }
    public Card(short _suit, short _cardnumber)
    {
    switch (_suit) {
    case 1 :
    this.suit = Suit.CLUBS;
    break;
    case 2 :
    this.suit = Suit.DIAMONDS;
    break;
    case 3 :
    this.suit = Suit.HEARTS;
    break;
    case 4 :
    this.suit = Suit.SPADES;
    break;
    default :
    break;
    }


    switch (_cardnumber) {
    case 1 :
    this.rank = Rank.ACE;
    break;
    case 2 :
    this.rank = Rank.KING;
    break;
    case 3 :
    this.rank = Rank.QUEEN;
    break;
    case 4 :
    this.rank = Rank.JACK;
    break;
    case 5 :
    this.rank = Rank.TEN;
    break;
    case 6 :
    this.rank = Rank.NINE;
    break;
    case 7 :
    this.rank = Rank.EIGHT;
    break;
    case 8 :
    this.rank = Rank.SEVEN;
    break;
    case 9 :
    this.rank = Rank.SIX;
    break;
    case 10 :
    this.rank = Rank.FIVE;
    break;
    case 11 :
    this.rank = Rank.FOUR;
    break;
    case 12 :
    this.rank = Rank.THREE;
    break;
    case 13 :
    this.rank = Rank.TWO;
    break;
    default : break;
    }
    }


    @Override
    public String toString() {
    return rank.toString().toLowerCase() + " of " + suit.toString().toLowerCase();
    }

    @Override
    public int hashCode() {

    int _hash = 7;
    _hash = _hash * 31 + suit.hashCode();
    _hash = _hash * 31 + rank.hashCode();
    return _hash;
    }


    @Override
    public boolean equals (Object other) {
    if ((other == null) || (!(other instanceof Card))) return false;


    if (this == other) return true;

    if (getClass() != other.getClass()) return false;

    Card card = (Card) other;
    return card.suit == this.suit &&
    card.rank == this.rank &&
    other.hashCode() == this.hashCode();
    }


    protected enum Suit {
    CLUBS("Clubs"), DIAMONDS("Diamonds"), HEARTS("Hearts"), SPADES("Spades");


    private String name;
    Suit(String name) { this.name = name; }
    public String getName() { return name; }
    }


    protected enum Rank {
    ACE("Ace"), KING("King"), QUEEN("Queen"), JACK("Jack"), TEN("Ten"),
    NINE("Nine"), EIGHT("Eight"), SEVEN("Seven"), SIX("Six"), FIVE("Five"),
    FOUR("Four"), THREE("Three"), TWO("Two");


    private String name;
    Rank(String name) { this.name = name; }
    public String getName() { return name; }
    }


    public Suit getSuit() {
    return this.suit;}


    public Rank getRank() {
    return this.rank;
    }
    public static int RANKING_CARDS_PER_SUIT = 13;
    public static int SUIT_COUNT = 4;
    @SuppressWarnings("unused")
    private static boolean isJokerAvailable = false;


    private Suit suit;
    private Rank rank;


    }


    package poker;
    import java.util.*;
    import org.apache.log4j.BasicConfigurator;
    public class Player {


    public Player (String _name, Double _balance) {
    this.name = _name;
    this.balance = _balance;
    }


    public ArrayList<Card> getCardsHeld() {return CardsHeld;}
    public void getCardFromDealer (Card _card) {CardsHeld.add(_card);}


    public boolean equals (Object other) {
    if ((other == null) || (!(other instanceof Player))) return false;


    if (this == other) return true;

    if (getClass() != other.getClass()) return false;

    @SuppressWarnings("unused")
    Player _player = (Player) other;
    return this.hashCode() == other.hashCode();
    }


    public String toString() {

    String _cardsHeld = "";
    for (int i = 0; i < CardsHeld.size(); i++) {_cardsHeld += CardsHeld.get(i).toString() + "; ";}

    return (name + " holds the following cards: " + _cardsHeld) ;
    }


    public int hashCode() {
    int _hash = 7;
    int _cpCount = this.name.codePointCount(0, this.name.length());
    int _codePointV = 0;

    for (_cpCount = 0; _cpCount < this.name.codePointCount(0, this.name.length()); _cpCount++) {
    _codePointV += this.name.codePointAt(_cpCount);
    }
    _hash = _hash * 31 + _codePointV;
    return _hash;
    }
    private ArrayList<Card> CardsHeld = new ArrayList<Card>();


    public String getName () {return name; }
    public Double getBalance () {return balance;}
    public boolean betAmount(Double _amountToBet) {
    if (_amountToBet <= balance) {
    balance -= _amountToBet;
    return true;}

    else return false;
    }
    public void addWinnings (Double _amountWon){
    balance += _amountWon;
    }
    public void setRanking (short _winningRank){
    this.winningRank = _winningRank;
    }
    public short getRanking () {return this.winningRank;}


    public long getCurrentGameScore() {return this.scoreOfCurrentGame;}
    public void setCurrentGameScore(long _currentScore) {
    this.scoreOfCurrentGame = _currentScore;
    if (_currentScore > this.highScore) this.highScore = _currentScore;}

    public long getHighScore() {return this.highScore;}


    private String name;
    private Double balance;
    private short winningRank;
    private long scoreOfCurrentGame;
    private long highScore;
    //TODO: persist stats on text file
    }



    package poker;


    import java.awt.Image;
    import java.io.BufferedInputStream;
    import java.io.File;
    import java.io.FileInputStream;
    import java.io.IOException;
    import java.io.InputStream;
    import java.util.*;
    import javax.imageio.ImageIO;
    import org.apache.log4j.BasicConfigurator;
    import org.apache.log4j.Logger;
    public class Poker {


    /* "Magic numbers" to be replaced by parameters loaded from text file e.g. poker.init */
    public static final short MAX_CARDS_IN_DECK = 52;
    public static final short MAX_SUITS_IN_DECK = 4;
    public static final short MAX_RANK_IN_DECK = 13;
    public static final short MAX_PLAYERS_PER_TABLE = 5;
    public static final short MAX_GAMES = 1;
    //TODO:
    //1. getWinners() review and maybe use Map instead of Enums, including:
    //1a. Poker winning hands not being returned correctly.
    //1b. Poker winning hands being repeated e.g. Player One gets full house, and, Player One to Player Five (inclusive), get full house.
    //2. review code and clean up, test etc.
    //3. implement Joker, which can act as a wild card (Card.java and Poker.java) FIX.
    //4. UI, concurrent games and tables, and, probability statistics (future).


    public static double amountOnTable;
    public static final String CURRENCY_SYMBOL = "";


    public static void main(String[] args) {


    BasicConfigurator.configure();


    readIcons();


    boolean shuffled = true;
    getCards(shuffled);


    Player playerOne = new Player("Player One", 10000.00);
    playerOne.getCardFromDealer(getTopCard());
    playerOne.getCardFromDealer(getTopCard());
    if (playerOne.betAmount(100.00) == false) {System.out.println("WARNING: Player tried to bet " + CURRENCY_SYMBOL + "100.00, whilst the balance available is " + CURRENCY_SYMBOL + playerOne.getBalance());}




    Player playerTwo = new Player("Player Two", 10000.0);
    playerTwo.getCardFromDealer(getTopCard());
    playerTwo.getCardFromDealer(getTopCard());
    Double _amountforPlayerTwo = 10000.0;
    if (playerTwo.betAmount(_amountforPlayerTwo) == false) {System.out.println("WARNING: Player tried to bet " + CURRENCY_SYMBOL + _amountforPlayerTwo + ", whilst the balance available is " + CURRENCY_SYMBOL + playerTwo.getBalance());}


    Player playerThree = new Player("Player Three", 10000.0);
    playerThree.getCardFromDealer(getTopCard());
    playerThree.getCardFromDealer(getTopCard());
    if (playerThree.betAmount(100.00) == false) {System.out.println("WARNING: Player tried to bet " + CURRENCY_SYMBOL + "100.00, whilst the balance available is " + CURRENCY_SYMBOL + playerThree.getBalance());}


    Player playerFour = new Player("Player Four", 10000.0);
    playerFour.getCardFromDealer(getTopCard());
    playerFour.getCardFromDealer(getTopCard());
    if (playerFour.betAmount(100.00) == false) {System.out.println("WARNING: Player tried to bet " + CURRENCY_SYMBOL + "100.00, whilst the balance available is " + CURRENCY_SYMBOL + playerFour.getBalance());}


    Player playerFive = new Player("Player Five", 10000.0);
    playerFive.getCardFromDealer(getTopCard());
    playerFive.getCardFromDealer(getTopCard());
    if (playerFive.betAmount(100.00) == false) {System.out.println("WARNING: Player tried to bet " + CURRENCY_SYMBOL + "100.00, whilst the balance available is " + CURRENCY_SYMBOL + playerFive.getBalance());}


    for (int iBettingRounds = 0; iBettingRounds < 3; iBettingRounds++) {
    playerOne.getCardFromDealer(getTopCard());
    playerOne.betAmount(100.00);


    playerTwo.getCardFromDealer(getTopCard());
    playerTwo.betAmount(100.00);


    playerThree.getCardFromDealer(getTopCard());
    playerThree.betAmount(100.00);


    playerFour.getCardFromDealer(getTopCard());
    playerFour.betAmount(100.00);


    playerFive.getCardFromDealer(getTopCard());
    playerFive.betAmount(100.00);
    }


    System.out.println(playerOne);
    System.out.println(playerTwo);
    System.out.println(playerThree);
    System.out.println(playerFour);
    System.out.println(playerFive);


    System.out.println("Cards held by dealer:");
    for (int i = 0; i < deckOfCards.size(); i++) { System.out.println((i + 1) +"." + deckOfCards.get(i));}


    deckOfCards.trimToSize();


    ArrayList<Player> _players = new ArrayList<Player>();
    _players.add(playerOne);
    _players.add(playerTwo);
    _players.add(playerThree);
    _players.add(playerFour);
    _players.add(playerFive);
    System.out.println("And the winners are...");
    for (Player _p: getWinner(_players)) {
    System.out.println (_p + "Score: " + _p.getCurrentGameScore() + " High Score: " + _p.getHighScore());
    }


    }
    private static void getCards (boolean _shuffled) {
    short iCount = 0;
    for (short suit = 1; suit <= MAX_SUITS_IN_DECK; suit++){
    for (short rank = 1; rank <= MAX_RANK_IN_DECK; rank++) {
    deckOfCards.add(iCount, new Card(suit, rank));
    iCount++;
    }}


    if (_shuffled == true){Collections.shuffle(deckOfCards, new Random());}


    }


    private static Card getTopCard() {
    Card _cardRemoved = deckOfCards.get(1);
    deckOfCards.remove(1);
    return _cardRemoved;
    }


    private static void readIcons(){


    String _filename;


    //read icons
    Image _image = null;
    File _file = null;
    InputStream _is = null;
    for (int i = 1; i < MAX_CARDS_IN_DECK + 1; i++) {
    try {


    /* Security information: filenames should not be altered manually by an Administrator, and,
    should be available within the same directory where the source code runs. */


    if (i < 10) {_filename = "0" + Integer.toString(i);}
    else {_filename = Integer.toString(i);}


    String _temp = _filename;
    _filename = _temp + ".GIF";


    //TODO: Relative path might change when implementing?
    _filename = System.getProperty("user.dir") + "\\img\\" + _filename;


    _file = new File(_filename);


    //read from an input stream
    _is = new BufferedInputStream (new FileInputStream(_filename));


    _image = ImageIO.read(_is);
    if (_file.exists()) {
    CardIcons.add(_image);
    //_log.debug(_filename + " loaded.");
    }
    }
    catch (IOException e) { _log.debug(e.getMessage()); }
    }
    }


    private static byte[] countCardsByRank (ArrayList<Card> _cardsAtHand) {
    byte _cardsByRank[] = new byte[MAX_RANK_IN_DECK];
    for (Card _card : _cardsAtHand) {


    _cardsByRank[_card.getRank().ordinal()] += (byte) _card.getRank().ordinal();
    }
    return _cardsByRank;
    }


    private static byte[] countCardsBySuit (ArrayList<Card> _cardsAtHand) {
    byte _cardsBySuit[] = new byte[MAX_SUITS_IN_DECK];
    for (Card _card : _cardsAtHand) {
    _cardsBySuit[_card.getSuit().ordinal()] += (byte) _card.getRank().ordinal();
    }


    return _cardsBySuit;
    }


    //TODO: write ranking rules
    private static ArrayList<Player> getWinner(ArrayList<Player> _players) {


    ArrayList<Player> _winners = new ArrayList<Player>();
    /*TODO: FIX: getWinner() being filled with multiple instances of Players, not just "winners".


    /*TODO: 1. Player.setRanking(_ranking) for each of the players and review getWinner() to update _ranking and _highCardPoints.
    Ranking
    for hand # - highest ranking wins


    _highCardPoints = High-card ranking scores Score
    Card.Rank.Suit.ACE +14
    Card.Rank.Suit.KING +13
    Card.Rank.Suit.QUEEN +12
    Card.Rank.Suit.JACK +11
    Card.Rank.Suit.TEN +10
    Card.Rank.Suit.NINE +9
    Card.Rank.Suit.EIGHT +8
    Card.Rank.Suit.SEVEN +7
    Card.Rank.Suit.SIX +6
    Card.Rank.Suit.FIVE +5
    Card.Rank.Suit.FOUR +4
    Card.Rank.Suit.THREE +3
    Card.Rank.Suit.TWO +2


    _handRanking = Scores by hand ranking
    ----------------------
    1. Straight flush. Five cards in sequence all of the same suit. *1000000000
    2. Four of a kind. Four cards of the same rank i.e. two pairs. *100000000
    3. Full house. Three cards of the same rank, and, a pair of cards with the same rank. *10000000
    4. Flush. Five cards of the same suit. *1000000
    5. Straight. Five cards in sequence, not necessarily of the same suit. *100000
    6. Three of a kind. Three cards of the same rank. *10000
    7. Two pair. Two pairs of cards, each having the same rank. Higher ranks win. *1000
    8. One pair. One pair of cards with the same rank. *100
    9. High card. Cards in order of their rank. *10




    Higher cards get higher points.
    Further information at List of poker hands - Wikipedia, the free encyclopedia.
    */


    /*TODO: If two or more players have equal high ranking, then players get to split the pot, hence, add both players to the winning
    ArrayList and return the ArrayList.
    */


    int _suitCount = 0;
    int _rankCount = 0;
    ArrayList<Card> _cardsAtHand = new ArrayList<Card>();
    long _highScore = 0;
    short iPlayer = 0;


    //scores will be in the same order as _players
    long _handRanking[] = new long[_players.size()];
    int _highCardPoints[] = new int[_players.size()];
    long _totalScore[] = new long[_players.size()];


    for (Player _p : _players) {
    boolean _rankingFound = false;


    for (iPlayer = 0; iPlayer < _players.size(); iPlayer++) {
    _cardsAtHand = _players.get(iPlayer).getCardsHeld();


    /* Straight flush */
    for (Card _card: _cardsAtHand) {


    _suitCount += _card.getSuit().ordinal();


    switch (_card.getRank()) {
    case ACE : {_rankCount += Card.Rank.ACE.ordinal();
    _highCardPoints[iPlayer] += 14;
    break; }
    case KING : {_rankCount += Card.Rank.KING.ordinal();
    _highCardPoints[iPlayer] += 13;
    break;}
    case QUEEN : {_rankCount += Card.Rank.QUEEN.ordinal();
    _highCardPoints[iPlayer] +=12;
    break;}
    case JACK : {_rankCount += Card.Rank.JACK.ordinal();
    _highCardPoints[iPlayer] += 11;
    break;}
    case TEN : {_rankCount += Card.Rank.TEN.ordinal();
    _highCardPoints[iPlayer] += 10;
    break;}
    case NINE : {_rankCount += Card.Rank.NINE.ordinal();
    _highCardPoints[iPlayer] += 9;
    break;}
    case EIGHT : {_rankCount += Card.Rank.EIGHT.ordinal();
    _highCardPoints[iPlayer] += 8;
    break;}
    case SEVEN : {_rankCount += Card.Rank.SEVEN.ordinal();
    _highCardPoints[iPlayer] += 7;
    break;}
    case SIX : {_rankCount += Card.Rank.SIX.ordinal();
    _highCardPoints[iPlayer] += 6;
    break;}
    case FIVE : {_rankCount += Card.Rank.FIVE.ordinal();
    _highCardPoints[iPlayer] += 5;
    break;}
    case FOUR : {_rankCount += Card.Rank.FOUR.ordinal();
    _highCardPoints[iPlayer] += 4;
    break;}
    case THREE : {_rankCount += Card.Rank.THREE.ordinal();
    _highCardPoints[iPlayer] += 3;
    break;}
    case TWO : {_rankCount += Card.Rank.TWO.ordinal();
    _highCardPoints[iPlayer] += 2;
    break;}
    default : break;
    }
    }
    /* all hands must be from the same suit, hence, the total points must be the squares of the Card.Suit.<RANK>.ordinal() values */
    /*TODO: FIX - not working as expected, which means that other random combinations of cards are "hacking" their way through
    the validation algorithm. Posted question on a math forum to resolve the problem. */
    if (!(_suitCount == 0 || _suitCount == 5 || _suitCount == 10 || _suitCount == 15)) {
    _handRanking[iPlayer] = 0;
    _highCardPoints [iPlayer]= 0; }


    else if ( (_rankCount >= 10) && (_rankCount <=50) && ((_rankCount % 5) == 0) ) {
    _rankingFound = true;
    _handRanking[iPlayer] = 1000000000;
    _winners.add(_p);


    if (_highCardPoints[iPlayer] == 60) _log.debug("Royal flush" + _p);
    else _log.debug("Straight flush (Known BUG!!)" + _p);}


    if (!_rankingFound) {
    /* 2. Four of a kind*/


    for (Card _card : _cardsAtHand) {
    _rankCount += _card.getRank().ordinal();
    }


    if ((_rankCount > 0) && (_rankCount < 48) && (_rankCount % 4 == 0)) {
    _rankingFound = true;
    _handRanking[iPlayer] = 100000000;
    _log.debug("Four of a kind " + _p);
    }}


    if (!_rankingFound) {
    /* 3. Full house */
    byte[] _cardsByRank = countCardsByRank(_cardsAtHand);


    boolean _foundThreeOfARank = false;
    boolean _foundPairOfARank = false;
    //TODO: FIX ArrayIndexOutOfBoundsException which occurs intermittenly; root source not found 26.04.2011 Jon C.
    //TODO: Rewrite to meet code-writing (syntax) requirements at a later stage.
    try
    {
    for (byte i : _cardsByRank) {
    if (_cardsByRank[i]==3) _foundThreeOfARank = true;
    break;
    }
    for (byte i : _cardsByRank) {
    if (_cardsByRank[i]==2) _foundPairOfARank = true;
    break;
    }
    }
    catch (ArrayIndexOutOfBoundsException exArray)
    {
    _log.debug(exArray.getMessage());
    }


    if (_foundThreeOfARank && _foundPairOfARank) _rankingFound = true;
    _handRanking[iPlayer] = 10000000;
    _log.debug("Full house (Known BUG)" + _p);
    }


    if (!_rankingFound) {
    /* 4. Flush */
    //TODO: FIX ArrayIndexOutOfBoundsException which occurs intermittenly; root source not found 26.04.2011 Jon C.
    try {
    byte[] _cardsBySuit = countCardsBySuit(_cardsAtHand);
    for (byte i : _cardsBySuit) {
    if (_cardsBySuit[i]==5)
    {
    _rankingFound = true;
    break;
    }
    }


    if (_rankingFound)
    {
    //count high cards
    for (Card _card: _cardsAtHand) {


    _suitCount += _card.getSuit().ordinal();


    switch (_card.getRank()) {
    case ACE : {_rankCount += Card.Rank.ACE.ordinal();
    _highCardPoints[iPlayer] += 14;
    break; }
    case KING : {_rankCount += Card.Rank.KING.ordinal();
    _highCardPoints[iPlayer] += 13;
    break;}
    case QUEEN : {_rankCount += Card.Rank.QUEEN.ordinal();
    _highCardPoints[iPlayer] +=12;
    break;}
    case JACK : {_rankCount += Card.Rank.JACK.ordinal();
    _highCardPoints[iPlayer] += 11;
    break;}
    case TEN : {_rankCount += Card.Rank.TEN.ordinal();
    _highCardPoints[iPlayer] += 10;
    break;}
    case NINE : {_rankCount += Card.Rank.NINE.ordinal();
    _highCardPoints[iPlayer] += 9;
    break;}
    case EIGHT : {_rankCount += Card.Rank.EIGHT.ordinal();
    _highCardPoints[iPlayer] += 8;
    break;}
    case SEVEN : {_rankCount += Card.Rank.SEVEN.ordinal();
    _highCardPoints[iPlayer] += 7;
    break;}
    case SIX : {_rankCount += Card.Rank.SIX.ordinal();
    _highCardPoints[iPlayer] += 6;
    break;}
    case FIVE : {_rankCount += Card.Rank.FIVE.ordinal();
    _highCardPoints[iPlayer] += 5;
    break;}
    case FOUR : {_rankCount += Card.Rank.FOUR.ordinal();
    _highCardPoints[iPlayer] += 4;
    break;}
    case THREE : {_rankCount += Card.Rank.THREE.ordinal();
    _highCardPoints[iPlayer] += 3;
    break;}
    case TWO : {_rankCount += Card.Rank.TWO.ordinal();
    _highCardPoints[iPlayer] += 2;
    break;}
    default : break;
    }
    }


    _handRanking[iPlayer] = 1000000;
    _log.debug("Flush " + _p);
    }
    }
    catch (ArrayIndexOutOfBoundsException exArray) {
    _log.debug(exArray.getMessage());
    }
    }


    if (!_rankingFound) {
    /* 5. Straight */
    }


    if (!_rankingFound) {
    /* 6. Three of a kind */
    }


    if (!_rankingFound) {
    /* 7. Two pair */
    }


    if (!_rankingFound) {
    /* 8. One pair */
    }


    if (!_rankingFound) {
    /* 9. High cards */
    }


    if (!_rankingFound) {
    /* dummy - TODO: delete*/
    _highScore = 0;


    }
    iPlayer = 0;
    _totalScore[iPlayer] = _highCardPoints[iPlayer] * _handRanking[iPlayer];
    _p.setCurrentGameScore(_totalScore[iPlayer]);


    //read high scores
    for (Player _playersWhoScored: _players) {
    if (_highScore < _playersWhoScored.getCurrentGameScore()) {_highScore = _totalScore[iPlayer];}
    iPlayer++;
    }


    }


    //set winners are...
    iPlayer = 0;
    for (Player _playersWhoScored: _players ) {
    if (_playersWhoScored.getCurrentGameScore() == _highScore) {_winners.add(_playersWhoScored);}
    iPlayer++;
    }
    }
    _winners.trimToSize();
    return _winners;}


    private static ArrayList<Image> CardIcons = new ArrayList<Image>();
    private static ArrayList<Card> deckOfCards = new ArrayList<Card>();
    private static final Logger _log = Logger.getLogger(Poker.class);




    /* References
    * ----------
    * Texas Hold'em rules are used throughout the game.
    * Information about poker at Poker - Wikipedia, the free encyclopedia.
    * List of poker hands at List of poker hands - Wikipedia, the free encyclopedia.
    * Rules for Texas Hold'Em at http://en.wikipedia.org/wiki/Texas_hold_'em. This will be implemented at a later stage.
    * Steve Badger, How to Play Poker at How to Play Poker - Learn to Play Poker - For Beginners.
    * Graphics to be implemented at a later stage.
    */
    }
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  2. #2
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    Re: Simplification questions...

    \displaystyle \begin{align*} \frac{x^2 + 5x - 3}{3x^{\frac{1}{2}}} &= \frac{x^2}{3x^{\frac{1}{2}}} + \frac{5x}{3x^{\frac{1}{2}}} - \frac{3}{3x^{\frac{1}{2}}} \\ &= \frac{1}{3}x^{2 - \frac{1}{2}} + \frac{5}{3}x^{1 - \frac{1}{2}} - \frac{3}{3}x^{0 - \frac{1}{2}} \\ &= \frac{1}{3}x^{\frac{3}{2}} + \frac{5}{3}x^{\frac{1}{2}} - x^{-\frac{1}{2}} \\ &= \frac{x^{\frac{3}{2}}}{3} + \frac{5x^{\frac{1}{2}}}{3} - \frac{1}{x^{\frac{1}{2}}} \end{align*}
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  3. #3
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    Re: Simplification questions...

    Thanks for explanation, what software are you using to clearly show the fractions and powers?
    How do you derive the dy/dx of this function?
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  4. #4
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    Re: Simplification questions...

    Quote Originally Posted by jon80 View Post
    Thanks for explanation, what software are you using to clearly show the fractions and powers?
    How do you derive the dy/dx of this function?
    I'm using LaTeX, a compiler has been built into this forum.

    To find the derivative, use the rule \displaystyle \frac{d}{dx}(ax^n) = nax^{n-1} for each term.
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  5. #5
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    Re: Simplification questions...

    Thank you
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