Physics Project Lab
-
10% KEDVEZMÉNY?
- A kedvezmény csak az 'Értesítés a kedvenc témákról' hírlevelünk címzettjeinek rendeléseire érvényes.
- Kiadói listaár GBP 105.00
-
47 407 Ft (45 150 Ft + 5% áfa)
Az ár azért becsült, mert a rendelés pillanatában nem lehet pontosan tudni, hogy a beérkezéskor milyen lesz a forint árfolyama az adott termék eredeti devizájához képest. Ha a forint romlana, kissé többet, ha javulna, kissé kevesebbet kell majd fizetnie.
- Kedvezmény(ek) 10% (cc. 4 741 Ft off)
- Kedvezményes ár 42 667 Ft (40 635 Ft + 5% áfa)
Iratkozzon fel most és részesüljön kedvezőbb árainkból!
Feliratkozom
47 407 Ft
Beszerezhetőség
Bizonytalan a beszerezhetőség. Érdemes még egyszer keresni szerzővel és címmel. Ha nem talál másik, kapható kiadást, forduljon ügyfélszolgálatunkhoz!
Why don't you give exact delivery time?
A beszerzés időigényét az eddigi tapasztalatokra alapozva adjuk meg. Azért becsült, mert a terméket külföldről hozzuk be, így a kiadó kiszolgálásának pillanatnyi gyorsaságától is függ. A megadottnál gyorsabb és lassabb szállítás is elképzelhető, de mindent megteszünk, hogy Ön a lehető leghamarabb jusson hozzá a termékhez.
A termék adatai:
- Kiadó OUP Oxford
- Megjelenés dátuma 2014. november 6.
- ISBN 9780198704577
- Kötéstípus Keménykötés
- Terjedelem328 oldal
- Méret 253x195x21 mm
- Súly 898 g
- Nyelv angol
- Illusztrációk over 200 b/w illustrations 0
Kategóriák
Rövid leírás:
Over 50 extended projects are described in detail. Each project description starts with a summary of theoretical background, proceeds to outline goals and possible avenues of exploration, suggests needed instrumentation, experimental setup and data analysis, and presents typical results which can serve as guidelines for the beginner researcher.
TöbbHosszú leírás:
This book is the result of many years of experience of the authors in guiding physics projects. It aims to satisfy a deeply felt need to involve students and their instructors in extended experimental investigations of physical phenomena.
Over fifty extended projects are described in detail, at various levels of sophistication, aimed at both the advanced high school, as well as first and second year undergraduate physics students, and their instructors. Carrying out these projects may take anything from a few days to several weeks, and in some cases months. Each project description starts with a summary of theoretical background, proceeds to outline goals and possible avenues of exploration, suggests needed instrumentation, experimental setup and data analysis, and presents typical results which can serve as guidelines for the beginner researcher.
Separate parts are devoted to mechanics, electromagnetism, acoustics, optics, liquids, and thermal physics. An additional appendix suggests twenty further ideas for projects, giving a very brief description for each and providing references for pursuing them in detail. We also suggest a useful library of basic texts for each of the topics treated in the various parts.
Gluck who teaches at Azrieli College of Engineering, Jerusalem, dedicated the book to King who passed away in 2014, after a long and distinguished career as a researcher and educator at MIT. In many ways the book embodies Kingâs passion for experimental physics. One can hope that it will spark the interest of future experimentalists to become scientists in his mold. I encourage instructors to dive into the authors' advice and dive into the adventure and uncertainty of a project that does not have a predetermined, easily found answer. ... Physics Project Lab is a valuable resource.
Tartalomjegyzék:
Introduction: Projects: why and how?
Part 1: Mechanics
Bouncing balls
Mechanics of soft springs
Pulse speed in falling dominoes
A variable mass oscillator
Rotating vertical
Cycloidal paths
Physics of rubber bands and cords
Oscillation modes of a rod
Part 2: Electromagnetism
Physics of incandescent lamps
Propulsion with a solenoid
Magnetic dipoles
The jumping ring of Elihu Thomson
Microwaves in dielectrics I
Microwaves in dielectrics II
The Doppler effect
Noise
Johnson noise
Network analog for lattice dynamics
Resistance networks
Part 3: Acoustics
Vibrating wires and strings
Physics with loudspeakers
Physics of the tuning fork
Acoustic resonance in pipes
Acoustic cavity resonators and filters
Room acoustics
Musical instruments: the violin
Musical instruments: the guitar
Brass musical instruments
Part 4: Liquids
Sound from gas bubbles in a liquid
Shape and path of air bubbles in a liquid
Ink diffusion in water
Refractive index gradients
Light scattering by surface ripples
Diffraction of light by ultrasonic waves in liquids
The circular hydraulic jump
Vortex physics
Plastic bottle oscillator
Salt water oscillator
Part 5: Optics
Birefringence in cellulose tapes
Barrier penetration
Reflection and transmission of light
Polarisation by transmission
Laser speckle
Light scattering from suspensions
Light intensity from a line source
Light interference in reflecting tubes
Part 6: Temperature & Heat
Cooling I
Cooling II
The Leidenfrost effect I
The Leidenfrost effect II
The drinking bird
Liquid vapor equilibrium
Solar radiation flux
Appendix A: Project ideas
Appendix B: Facilities, materials, devices and instruments
Appendix C: Reference library