BASICS OF PHYSICS
(objectives)
Provide the student with the knowledge and skills required to apply physics laws to architecture models. The student will be introduced to the scioentific methid and its language. Topics discussed during the course are: Mechanical and thermal equilibrium, Elasticity and thermal expansion. Thermodynamics and Fluid dynamics. Heat engines and refrigerators. Conservation laws. Harmonic motion. Longitudinal waves. Sound and hearing. Longitudinal waves in fluids and solids. Sound intensity and pressure. Introduction to renewable energy sources.
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Code
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21001996 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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FIS/01
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Contact Hours
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75
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Type of Activity
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Basic compulsory activities
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Group: CANALE I
Teacher
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BRUNI FABIO
(syllabus)
Fondamenti di Fisica prof. F. Bruni
Syllabus
References to reading material correspond to: (A) Principi di Fisica, Hugh D. Young, Roger A. Freedman, A. Lewis Ford. vol. 1. Pearson (2015) (B) Lecture notes and videos available in: - OneDrive - Course Channel on Microsoft Teams
Module A: Mechanic and Thermal Equilibrium. Deformation, Elasticity and thermal expansion. Energy density.
1. Equilibrium and Elasticity. Translational and rotational equilibrium. Force and torque. Read: (A) Chapter 11, 11.1 -11.5. Chapter 8, 8.5. Chapter 10, 10.1. Chapter 1, 1.7-1.10.
2. Temperature and Heat. Thermal Expansion. Mechanism of heat transfer. Rayleigh number. Read: (A) Chapter 17, 17.1, 17.4, 17.5, 17.7. (B) Lecture notes: How much time does it take to reach thermal equilibrium? Introduction to differential equations.
Part B: Thermodynamics and Fluid Dynamics.
1. Calorimetry and Phase changes. Phases of Matter. Thermodynamic System. Internal Energy and first law of Thermodynamics. Thermodynamic processes. Heat Engines and Refrigerators. Read: (A) Chapter 17, 17.6. Chapter 18, 18.1, 18.4, 18.6. Chapter 19, 19.1 - 19.8. Chapter 20, 20.1, 20.2, 20.4.
2. Fluid Dynamics. Fluid flow: laminar and turbulent flow. Reynolds number. Viscosity. Real fluids as model for vehicular traffic. Read: (A) Chapter 12, 12.1 - 12.6. (B) Lecture notes
Module C: Conservation Laws.
1. Work and Kinetic Energy. Potential energy and Energy conservation. Gravitational Potential Energy, Elastic Potential Energy.Conservative and nonconservative Forces. Frictional Forces. Read: (A) Chapter 6, 6.1- 6.4. Chapter 7, 7.1 -7.6. Chapter 5, 5.3.
2. Momentum, impulse. Conservation of momentum. Motion analyses: transation, rotation and rolling. Angular Momentum and its conservation. Read: (A) Chapter 8, 8.1- 8.5. Chapter 3, 3.1-3.4. Chapter 5, 5.4. Chapter 9, 9.1-9.5. Chapter 10, 10.2-10.6.
3. Simple Armonic Motion. Longitudinal waves. Sound and Hearing. Longitudinal waves in fluids and solids. Read: (A) Chapter 14, 14.6. Chapter 16, 16.1-16.3.
(reference books)
(A) University Physics with modern Physics Technology updates, Hugh D. Young, Roger A. Freedman, A. Lewis Ford. Pearson (B) Lecture notes and videos available in: - OneDrive - Course Channel on Microsoft Teams
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Dates of beginning and end of teaching activities
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From 01/03/2022 to 30/09/2022 |
Delivery mode
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Traditional
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Attendance
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Mandatory
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Evaluation methods
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Written test
Oral exam
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Group: CANALE II
Teacher
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SODO ARMIDA
(syllabus)
Part A: Mechanic and Thermal Equilibrium. Deformation, Elasticity and thermal expansion. Energy density.
1. Equilibrium and Elasticity. Translational and rotational equilibrium. Force and torque. Reference: (A) Chapter 11, 11.1 -11.5. Chapter 8, 8.5. Chapter 10, 10.1. Chapter 1, 1.7-1.10. Assignments on MasteringPhysics: 1. Ripasso di MatemaCca 2. Equilibrio ed elasCcità_1 (+bonus, 1 punto) 3. Equilibrio ed elasCcità_2 (+bonus, 1 punto)
2. Fluid Mechanics. Fluid flow: laminar and turbulent flow. Reynolds number. Viscosity. Real fluids as model for vehicular traffic. Reference: (A) Chapter 12, 12.1 - 12.6. (B) Lecture notes: Viscosità. Traffico Assignments on MasteringPhysics: 1. Dinamica dei fluidi (+bonus, 1 punto)
3. Temperature and Heat. Thermal Expansion. Mechanism of heat transfer. Rayleigh number. Reference: (A) Chapter 17, 17.1, 17.4, 17.5, 17.7. (B) Lecture notes: Trasferimento di calore. Assignments on MasteringPhysics: 1. Temperatura e Calore (+bonus, 1 punto)
Part B: Thermodynamics and Energy Conservation. 1. Calorimetry and Phase changes. Phases of Matter. Thermodynamic System. Internal Energy and first law of Thermodynamics. Thermodynamic processes. Heat Engines and Refrigerators. Reference: (A) Chapter 17, 17.6. Chapter 18, 18.1, 18.4, 18.6. Chapter 19, 19.1 - 19.8. Chapter 20, 20.1, 20.2, 20.4. Assignments on MasteringPhysics: 1. Termodinamica_1 (+bonus, 1 punto) 2. Termodinamica_2 (+bonus, 1 punto)
Part C: Conservation Laws. 1. Work and Kinetic Energy. Potential energy and Energy conservation. Gravitational Potential Energy, Elastic Potential Energy.Conservative and nonconservative Forces. Frictional Forces. Reference: (A) Chapter 6, 6.1- 6.4. Chapter 7, 7.1 -7.6. Chapter 5, 5.3. Assignments on MasteringPhysics: 1. Conservazione Energia (+bonus, 1 punto) 2. Momentum, impulse. Conservation of momentum. Motion analyses: transation, rotation and rolling. Angular Momentum and its conservation. Reference: (A) Chapter 8, 8.1- 8.5. Chapter 3, 3.1-3.4. Chapter 5, 5.4. Chapter 9, 9.1-9.5. Chapter 10, 10.2-10.6. Assignments on MasteringPhysics: 1. Traslazioni_Rotazioni_Rotolamento (+bonus, 1 punto)
3. Simple Armonic Motion. Longitudinal waves. Sound and Hearing. Longitudinal waves in fluids and solids. Reference: (A) Chapter 14, 14.6. Chapter 16, 16.1-16.3. Assignments on MasteringPhysics: 1. Oscillazioni (+bonus, 1 punto)
(reference books)
A. University Physics with modern Physics Technology updates, Hugh D. Young, Roger A. Freedman, A. Lewis Ford. Pearson B. lecture notes on TEAMS
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Dates of beginning and end of teaching activities
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From 01/03/2022 to 30/09/2022 |
Delivery mode
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Traditional
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Attendance
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Mandatory
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Evaluation methods
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Written test
Oral exam
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