# Fundamentals of actuarial mathematics / S. David Promislow.

##### By: Promislow, S. David

Material type: TextLanguage: English Publisher: Chichester : Wiley, 2015Edition: Third editionDescription: pages cmISBN: 9781118782460 (hardback)Subject(s): Insurance -- Mathematics | Business mathematics | MATHEMATICS / Probability & Statistics / GeneralDDC classification: 368.01 LOC classification: HG8781 | .P76 2014Online resources: WorldCat details | E-book FulltextItem type | Current location | Collection | Call number | Copy number | Status | Date due | Barcode | Item holds |
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E-Book | EWU Library E-book | Non-fiction | 368.01 PEF 2015 (Browse shelf) | Not for loan | ||||

Text | EWU Library Reserve Section | Non-fiction | 368.01 PEF 2015 (Browse shelf) | C-1 | Not For Loan | 27383 | ||

Text | EWU Library Circulation Section | Non-fiction | 368.01 PEF 2015 (Browse shelf) | C-2 | Available | 27384 |

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365.643 FOD 1991 Discipline and punish : | 368.01 ACT 1997 Actuarial mathematics / | 368.01 MOD 2005 Modern actuarial theory and practice / | 368.01 PEF 2015 Fundamentals of actuarial mathematics / | 368.01 TSN 2009 Nonlife actuarial models : | 368.012 KLL 2012 Loss models : | 368 REP 2014 Principles of risk management and insurance / |

Includes bibliographical references and index.

Fundamentals of Actuarial Mathematics; Contents; Preface; Acknowledgements; About the companion website; Part I THE DETERMINISTIC LIFE CONTINGENCIES MODEL; 1 Introduction and motivation; 1.1 Risk and insurance; 1.2 Deterministic versus stochastic models; 1.3 Finance and investments; 1.4 Adequacy and equity; 1.5 Reassessment; 1.6 Conclusion; 2 The basic deterministic model; 2.1 Cash flows; 2.2 An analogy with currencies; 2.3 Discount functions; 2.4 Calculating the discount function; 2.5 Interest and discount rates; 2.6 Constant interest; 2.7 Values and actuarial equivalence. 2.8 Vector notation2.9 Regular pattern cash flows; 2.10 Balances and reserves; 2.10.1 Basic concepts; 2.10.2 Relation between balances and reserves; 2.10.3 Prospective versus retrospective methods; 2.10.4 Recursion formulas; 2.11 Time shifting and the splitting identity; *2.11 Change of discount function; 2.12 Internal rates of return; *2.13 Forward prices and term structure; 2.14 Standard notation and terminology; 2.14.1 Standard notation for cash flows discounted with interest; 2.14.2 New notation; 2.15 Spreadsheet calculations; Notes and references; Exercises; 3 The life table. 3.1 Basic definitions3.2 Probabilities; 3.3 Constructing the life table from the values of qx; 3.4 Life expectancy; 3.5 Choice of life tables; 3.6 Standard notation and terminology; 3.7 A sample table; Notes and references; Exercises; 4 Life annuities; 4.1 Introduction; 4.2 Calculating annuity premiums; 4.3 The interest and survivorship discount function; 4.3.1 The basic definition; 4.3.2 Relations between yx for various values of x; 4.4 Guaranteed payments; 4.5 Deferred annuities with annual premiums; 4.6 Some practical considerations; 4.6.1 Gross premiums; 4.6.2 Gender aspects. 4.7 Standard notation and terminology4.8 Spreadsheet calculations; Exercises; 5 Life insurance; 5.1 Introduction; 5.2 Calculating life insurance premiums; 5.3 Types of life insurance; 5.4 Combined insurance-annuity benefits; 5.5 Insurances viewed as annuities; 5.6 Summary of formulas; 5.7 A general insurance-annuity identity; 5.7.1 The general identity; 5.7.2 The endowment identity; 5.8 Standard notation and terminology; 5.8.1 Single-premium notation; 5.8.2 Annual-premium notation; 5.8.3 Identities; 5.9 Spreadsheet applications; Exercises; 6 Insurance and annuity reserves. 6.1 Introduction to reserves6.2 The general pattern of reserves; 6.3 Recursion; 6.4 Detailed analysis of an insurance or annuity contract; 6.4.1 Gains and losses; 6.4.2 The risk-savings decomposition; 6.5 Bases for reserves; 6.6 Nonforfeiture values; 6.7 Policies involving a return of the reserve; 6.8 Premium difference and paid-up formulas; 6.8.1 Premium difference formulas; 6.8.2 Paid-up formulas; 6.8.3 Level endowment reserves; 6.9 Standard notation and terminology; 6.10 Spreadsheet applications; Exercises; 7 Fractional durations; 7.1 Introduction.

Provides a comprehensive coverage of both the deterministic and stochastic models of life contingencies, risk theory, credibility theory, multi-state models, and an introduction to modern mathematical finance. New edition restructures the material to fit into modern computational methods and provides several spreadsheet examples throughout. Covers the syllabus for the Institute of Actuaries subject CT5, ContingenciesIncludes new chapters covering stochastic investments returns, universal life insurance. Elements of option pricing and the Black-Scholes formula will be introduced

Applied Statistics

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