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Vincenzo Canale

La Fisica è una scienza entusiasmante in un laboratorio grande come l’intero Universo. Tale disciplina permette di conoscere uno dei principali motori dello sviluppo del pensiero, lo studio dei fenomeni naturali, e di tradurlo in un linguaggio matematico. Essa rappresenta, infatti, il contesto più appropriato per capire l’origine e lo sviluppo di molte idee matematiche.Le lezioni qui proposte hanno l’ambizione di superare il semplice scopo di fornire nozioni per una formazione scientifica qualificata o per l’insegnamento.La successione degli argomenti è quella consolidata: la parte di meccanica comprende lo studio del moto (cinematica) e delle sue cause (la dinamica), inizialmente per il punto materiale e successivamente per i sistemi. Una breve trattazione di meccanica dei fluidi assicura la transizione allo studio dei fenomeni termici e ad alcune applicazioni della termodinamica.Un aspetto qualificante e originale del corso è l’attività di laboratorio, svolta in parallelo alla fenomenologia. Il laboratorio, infatti, evidenzia il legame fra i fenomeni e la loro interpretazione teorica e riporta lo studio della Fisica nel suo ambito più naturale e cioè quello sperimentale.

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La Fisica è una scienza entusiasmante in un laboratorio grande come l’intero Universo. Tale disciplina permette di conoscere uno dei principali motori dello sviluppo del pensiero, lo studio dei fenomeni naturali, e di tradurlo in un linguaggio matematico. Essa rappresenta, infatti, il contesto più appropriato per capire l’origine e lo sviluppo di molte idee matematiche.Le lezioni qui proposte hanno l’ambizione di superare il semplice scopo di fornire nozioni per una formazione scientifica qualificata o per l’insegnamento.La successione degli argomenti è quella consolidata: la parte di meccanica comprende lo studio del moto (cinematica) e delle sue cause (la dinamica), inizialmente per il punto materiale e successivamente per i sistemi. Una breve trattazione di meccanica dei fluidi assicura la transizione allo studio dei fenomeni termici e ad alcune applicazioni della termodinamica.Un aspetto qualificante e originale del corso è l’attività di laboratorio, svolta in parallelo alla fenomenologia. Il laboratorio, infatti, evidenzia il legame fra i fenomeni e la loro interpretazione teorica e riporta lo studio della Fisica nel suo ambito più naturale e cioè quello sperimentale.

Physics is an exciting science and its laboratory is the Universe itself.This is a discipline that enables you to understand one of the main drivers of human thinking, to study natural phenomena and to translate the results into mathematical formulae. Physics, in fact, is the ideal environment for understanding the origin and development of several mathematical ideas.The aims of this course go beyond fulfilling the requirements of an under-graduate or teaching certificate program. The range of the covered topics is rather classic.The mechanics, which concerns the motion both on kinematics and dynamics, starts with point like body and then continues with systems. A brief look at the mechanics of fluids leads on to the study of thermal phenomena and the applications of thermodynamics.One of the peculiar and salient aspects of this course are the laboratory sessions, which run alongside the theoretical lectures. The laboratory activity highlights the link between phenomena and their theoretical interpretation, and brings the study of Physics back to its natural environment which is the one of experimentation.

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What's inside

Learning objectives

  • Meccanica
  • Cinematica
  • Dinamica
  • Fenomeni termali
  • Termodinamica
  • Mechanics
  • Cinematics
  • Dynamics
  • Thermal
  • Phenomena
  • Thermodynamics

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Gli obiettivi del corso sono chiari e precisi, rendendo facile per gli studenti comprendere cosa impareranno
Il corso presenta un buon equilibrio tra teoria e pratica, con attività di laboratorio che aiutano gli studenti ad applicare i concetti appresi
Il corso comprende una vasta gamma di argomenti in Fisica, fornendo agli studenti una solida base nella materia
Il corso è adatto sia agli studenti principianti che a quelli intermedi, con contenuti accessibili e stimolanti per entrambi i livelli
Il corso è insegnato da istruttori esperti con una profonda conoscenza della materia

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Fisica I con laboratorio with these activities:
Brush up on Classical Mechanics
Review the concepts of Classical Mechanics to ensure a strong foundation for the course.
Browse courses on Classical Mechanics
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  • Review your notes from previous courses or textbooks on Classical Mechanics.
  • Check online resources such as Khan Academy or MIT OpenCourseWare for refresher materials.
  • Solve practice problems to test your understanding.
Help a Struggling Classmate
Strengthen your understanding by explaining concepts to others and fostering a sense of community within the class.
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  • Identify a classmate who may be struggling with a particular concept.
  • Offer your help and schedule a time to meet outside of class.
  • Review the concept together, explaining it in a clear and simplified manner.
  • Encourage the classmate to ask questions and provide feedback on their understanding.
Explore Online Simulations and Demonstrations
Visualize and interact with physical phenomena through online resources to enhance understanding.
Browse courses on Interactive Learning
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  • Search for reputable websites or platforms that offer interactive simulations or demonstrations related to the course topics.
  • Explore these resources and engage with the interactive content.
  • Observe how different variables affect the outcomes of simulations and experiments.
  • Reflect on the insights gained from these experiences and connect them to the theoretical concepts discussed in class.
Five other activities
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Form a Study Group
Collaborate with peers to reinforce concepts and enhance learning through discussions and shared insights.
Browse courses on Collaborative Learning
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  • Identify a group of classmates with similar interests or learning styles.
  • Establish regular meeting times and a designated study space.
  • Take turns presenting concepts to the group and facilitating discussions.
  • Work together to solve problems and clarify misunderstandings.
Solve Physics Problems
Enhance problem-solving skills and solidify understanding of physical principles.
Browse courses on Problem Solving
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  • Gather a collection of physics problems from textbooks, online resources, or past exams.
  • Set aside dedicated time for solving these problems.
  • Work through the problems step-by-step, applying relevant equations and concepts.
  • Check your solutions against answer keys or consult with classmates or instructors for feedback.
Explain a Physical Phenomenon
Foster a deeper understanding of physical concepts by explaining them to others.
Browse courses on Physical Phenomena
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  • Choose a physical phenomenon from the course materials that you find particularly interesting.
  • Research the phenomenon and gather information from textbooks, scientific articles, or online sources.
  • Create a presentation, write an essay, or record a video explaining the phenomenon in a clear and engaging manner.
  • Share your explanation with classmates or a broader audience through online platforms.
Attend a Physics Workshop or Demonstration
Gain practical experience and learn from experts in the field by attending workshops or demonstrations.
Browse courses on Hands-On Learning
Show steps
  • Research upcoming physics workshops or demonstrations in your area.
  • Attend the event and actively participate in hands-on activities.
  • Take notes and engage with experts to ask questions and clarify concepts.
  • Reflect on the insights gained and how they can enhance your understanding of the course material.
Design an Experiment
Develop critical thinking and problem-solving skills by designing an experiment to test a physical hypothesis.
Browse courses on Experimental Design
Show steps
  • Identify a specific physical phenomenon or question that you want to investigate.
  • Formulate a hypothesis based on your understanding of the relevant physical principles.
  • Design an experiment that can be used to test your hypothesis.
  • Write a detailed experimental plan that includes procedures, materials, and expected outcomes.
  • Present your experimental design to classmates or instructors for feedback and improvement.

Career center

Learners who complete Fisica I con laboratorio will develop knowledge and skills that may be useful to these careers:
Renewable Energy Engineer
Renewable Energy Engineers design and develop systems that generate energy from renewable sources, such as solar, wind, and geothermal. They may work in the renewable energy industry, or for government agencies. This course will help build a foundation in the principles of thermodynamics and fluid mechanics, which are essential for understanding how renewable energy systems work.
Nuclear Engineer
Nuclear Engineers design and develop nuclear power plants and other systems that use nuclear energy. They may work in the power generation, manufacturing, or government industries. This course will help build a foundation in the principles of thermodynamics and nuclear physics, which are essential for success in this field.
Petroleum Engineer
Petroleum Engineers design and develop systems for extracting and producing oil and gas. They may work in the oil and gas industry, or for government agencies. This course will help build a foundation in the principles of thermodynamics and fluid mechanics, which are essential for understanding how oil and gas are extracted and produced.
Chemical Engineer
Chemical Engineers design and develop chemical plants and processes. They may work in the chemical, manufacturing, or pharmaceutical industries. This course will help build a foundation in the principles of thermodynamics and fluid mechanics, which are essential for understanding how chemical plants and processes work.
Materials Scientist
Materials Scientists research and develop new materials, such as metals, ceramics, and polymers. They may work in the manufacturing, aerospace, or electronics industries. This course will help build a foundation in the principles of thermodynamics and condensed matter physics, which are essential for understanding how materials behave.
Robotics Engineer
Robotics Engineers design and develop robots for use in a variety of applications, including manufacturing, healthcare, and space exploration. They may work in the robotics, manufacturing, or aerospace industries. This course will help build a foundation in the principles of mechanics and control theory, which are essential for understanding how robots work.
Heat Transfer Engineer
Heat Transfer Engineers design and develop systems that transfer heat efficiently. They may work in the power generation, manufacturing, or HVAC industries. The course will help build a foundation in the principles of heat transfer, which are essential for success in this field.
Biomedical Engineer
Biomedical Engineers design and develop medical devices and systems. They may work in the medical device, pharmaceutical, or healthcare industries. This course will help build a foundation in the principles of mechanics and thermodynamics, which are essential for understanding how medical devices and systems work.
Aerospace Engineer
Aerospace Engineers design and develop aircraft, spacecraft, and other vehicles that fly. They may work in the aerospace, defense, or transportation industries. This course will help build a foundation in the principles of aerodynamics, which are essential for success in this field. The course also covers the basics of thermodynamics, which is important for understanding how aircraft engines work.
Thermodynamics Engineer
Thermodynamics Engineers are responsible for designing and developing systems that use heat to do work. They may work in the power generation, manufacturing, or refrigeration industries. This course provides a strong foundation in the principles of thermodynamics, which are essential for success in this role.
Civil Engineer
Civil Engineers design and develop infrastructure, such as bridges, roads, and buildings. They may work in the construction, transportation, or government industries. This course will help build a foundation in the principles of mechanics, which are essential for understanding how structures are built.
Mechanical Engineer
Mechanical Engineers design and develop mechanical systems, such as engines, robots, and machines. They may also work in the construction, manufacturing, or automotive industries. This course will help build a foundation in the principles of mechanics, which are essential for success in this field.
Manufacturing Engineer
Manufacturing Engineers design and develop processes for manufacturing products. They may work in the manufacturing, construction, or automotive industries. This course will help build a foundation in the principles of mechanics and thermodynamics, which are essential for understanding how manufacturing processes work.
Automotive Engineer
Automotive Engineers design and develop automobiles and other vehicles. They may work in the automotive, transportation, or manufacturing industries. This course will help build a foundation in the principles of mechanics and thermodynamics, which are essential for success in this field.
Quality Assurance Engineer
Quality Assurance Engineers ensure that products and processes meet quality standards. They may work in the manufacturing, construction, or healthcare industries. This course will help build a foundation in the principles of mechanics and thermodynamics, which are essential for understanding how products and processes work.

Reading list

We've selected 13 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Fisica I con laboratorio.
Un classico della letteratura fisica, tradotto in molte lingue, utile come testo di riferimento per approfondire gli argomenti trattati a lezione.
Un testo completo e aggiornato sull'elettromagnetismo, utile come riferimento per approfondire gli argomenti trattati a lezione.
Un testo completo e aggiornato sulla meccanica statistica, utile come riferimento per approfondire gli argomenti trattati a lezione.
Un testo completo e aggiornato sulla fisica dello stato solido, utile come riferimento per approfondire gli argomenti trattati a lezione.
Un testo completo e aggiornato sulla fisica nucleare e delle particelle, utile come riferimento per approfondire gli argomenti trattati a lezione.
Un classico della letteratura fisica, ancora oggi utilizzato come testo di riferimento.

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