What You Need to Know about Buku Pintar Fisika Xi B Sagufindo Kinarya

Buku Pintar Fisika XI B Sagufindo Kinarya

A Smart Book for Learning Physics for High School Students

technology, engineering and medicine. However, learning physics can be challenging for some students who may find it abstract or difficult. That is why they need a good book that can help them learn physics effectively.

buku pintar fisika xi b sagufindo kinarya

One such book is Buku Pintar Fisika XI B Sagufindo Kinarya, which means Smart Book for Learning Physics for Grade 11 B Sagufindo Kinarya. This book is written by Zaelani Ahmad et al., who are experienced physics teachers from Indonesia. This book is published by Sagufindo Kinarya, which is a reputable publisher that specializes in educational books. This book is designed for high school students who are studying physics in grade 11 B curriculum.

This book has many features and benefits that make it a smart choice for learning physics. In this article, we will review the content and the features of the book and explain why it is recommended for high school students who want to learn physics.

The Content of the Book

The book covers four main topics in physics: mechanics, heat and thermodynamics, waves and optics, and electricity and magnetism. These topics are aligned with the national curriculum standards for grade 11 B in Indonesia. The book also follows the scientific inquiry approach, which encourages students to observe, experiment, analyze and communicate their findings.

Each topic is divided into several subtopics that explain the concepts and principles of physics in a clear and concise way. The book uses diagrams, tables, graphs and examples to illustrate the concepts and make them easier to understand. The book also provides exercises and problems for each subtopic with different levels of difficulty and solutions. The exercises and problems help students practice their skills and test their understanding of the concepts.

Here is a brief overview of each topic and its subtopics:

Mechanics

Mechanics is the study of motion, force, energy and momentum. It helps us understand how objects move and interact with each other. In this topic, students will learn about:

Kinematics

• Kinematics is the description of motion using position, velocity and acceleration. Students will learn how to use graphs, equations and vectors to describe the motion of objects in one or two dimensions.

Dynamics

• Dynamics is the analysis of motion using Newton's laws of motion and friction. Students will learn how to apply Newton's laws to various situations involving forces, such as gravity, tension, normal force and friction.

Work and Energy

• Work and energy are the concepts that relate force and motion to energy. Students will learn how to calculate work, power, energy conservation and potential and kinetic energy.

Momentum and Impulse

• Momentum and impulse are the concepts that relate force and time to momentum. Students will learn how to calculate momentum, impulse, conservation of momentum and collisions.

Heat and Thermodynamics

and thermodynamic processes. It helps us understand how heat and temperature affect matter and energy. In this topic, students will learn about:

Temperature and Heat

• Temperature and heat are the definitions of temperature and heat, the measurement of temperature using thermometers and scales. Students will learn how to convert between different temperature scales such as Celsius, Fahrenheit and Kelvin.

Thermal Expansion

• Thermal expansion is the change in length, area and volume of materials due to temperature change. Students will learn how to calculate the coefficients of linear, area and volume expansion for different materials.

Heat Transfer

• Heat transfer is the modes of heat transfer by conduction, convection and radiation. Students will learn how to apply the laws of heat transfer such as Fourier's law, Newton's law of cooling and Stefan-Boltzmann law.

Thermodynamic Processes

• Thermodynamic processes are the types of thermodynamic processes such as isothermal, adiabatic, isobaric and isochoric. Students will learn how to use the first law of thermodynamics to analyze the changes in internal energy, heat and work for different processes.

Waves and Optics

Waves and optics are the study of wave phenomena such as sound, light and electromagnetic waves. They help us understand how waves propagate and interact with matter and each other. In this topic, students will learn about:

Wave Properties

• Wave properties are the characteristics of waves such as amplitude, wavelength, frequency, speed and phase. Students will learn how to use the wave equation and the principle of superposition to describe the behavior of waves.

Sound Waves

• Sound waves are the production, propagation and detection of sound waves in different media. Students will learn how to use the concepts of pitch, loudness, intensity and decibel to measure sound. They will also learn how sound waves reflect, refract and interfere with each other.

Light Waves

• Light waves are the nature, reflection and refraction of light waves in different media. Students will learn how to use the concepts of ray model, angle of incidence, angle of reflection, angle of refraction and index of refraction to explain how light waves behave when they encounter different surfaces and boundaries.

Lenses and Mirrors

• Lenses and mirrors are the formation of images by lenses and mirrors using ray diagrams and equations. Students will learn how to use the concepts of focal length, magnification, real image and virtual image to analyze the images formed by convex and concave lenses and mirrors.

Electricity and Magnetism

electric fields, electric currents, magnetic fields and electromagnetic induction. They help us understand how electric and magnetic phenomena are related and how they affect each other. In this topic, students will learn about:

Electric Charges and Forces

• Electric charges and forces are the types of electric charges, the law of conservation of charge, Coulomb's law and electric fields. Students will learn how to identify positive and negative charges, how to calculate the electric force between two charges using Coulomb's law, and how to draw and use electric field lines.

Electric Potential and Capacitance

• Electric potential and capacitance are the concepts of electric potential, potential difference, electric potential energy and capacitance. Students will learn how to calculate the electric potential at a point due to one or more charges using the electric potential equation, how to calculate the potential difference between two points using the work-energy theorem, how to calculate the electric potential energy of a system of charges using the potential energy equation, and how to calculate the capacitance of a capacitor using the capacitance equation.

Electric Currents and Circuits

• Electric currents and circuits are the concepts of electric current, resistance, Ohm's law and Kirchhoff's laws. Students will learn how to measure the electric current using an ammeter, how to calculate the resistance of a resistor using the resistance equation, how to apply Ohm's law to find the current, voltage or resistance in a circuit element, and how to apply Kirchhoff's laws to analyze complex circuits with multiple loops and nodes.

Magnetic Fields and Forces

• Magnetic fields and forces are the sources of magnetic fields such as magnets and currents, the magnetic force on a moving charge or a current-carrying wire. Students will learn how to use the right-hand rule to determine the direction of magnetic fields and forces, how to calculate the magnetic force on a moving charge or a current-carrying wire using the magnetic force equation, and how to draw and use magnetic field lines.

Electromagnetic Induction

• Electromagnetic induction is the phenomenon of inducing an electric current by changing a magnetic field or moving a conductor in a magnetic field. Students will learn how to use Faraday's law to calculate the induced emf in a loop due to a changing magnetic flux, how to use Lenz's law to determine the direction of the induced current and emf, and how to apply electromagnetic induction to devices such as generators and transformers.

The Features of the Book

The book has many special features that make it unique and useful for learning physics. These features include:

Clear Explanations and Examples

• the concepts and principles to real-life situations.

Exercises and Problems

• The book provides exercises and problems for each subtopic with different levels of difficulty and solutions. The exercises and problems help students practice their skills and test their understanding of the concepts. The exercises are designed to reinforce the basic concepts and skills, while the problems are designed to challenge the students to apply their knowledge and reasoning to more complex situations. The solutions are provided at the end of the book for reference and self-checking.

Summary and Review Questions

• The book provides a summary of the main points for each topic and review questions for self-assessment. The summary helps students review the key concepts and formulas for each topic. The review questions help students evaluate their mastery of the topic and identify their strengths and weaknesses. The review questions are based on the national examination standards and cover multiple-choice, short-answer and essay questions.

Practical Activities and Experiments

• The book provides practical activities and experiments for each topic to demonstrate the applications of physics in real life. The practical activities and experiments help students develop their scientific skills such as observation, measurement, data analysis and communication. They also help students explore the phenomena and concepts of physics in a fun and interactive way. The practical activities and experiments are designed to use simple and accessible materials and equipment that can be found at home or school.

Conclusion

In conclusion, Buku Pintar Fisika XI B Sagufindo Kinarya is a smart book for learning physics for high school students. It covers four main topics in physics: mechanics, heat and thermodynamics, waves and optics, and electricity and magnetism. It provides clear explanations, examples, exercises, problems, summaries, review questions, practical activities and experiments for each topic. It also follows the national curriculum standards and the scientific inquiry approach. It is a comprehensive, engaging and useful book that can help students learn physics effectively.

If you are a high school student who wants to learn physics, you should consider getting this book. It will help you understand the concepts and principles of physics, improve your skills and confidence in physics, prepare you for your exams and future studies in physics, and inspire you to appreciate the beauty and wonder of physics.

FAQs

Q: Who is the author of this book?

• A: The author of this book is Zaelani Ahmad et al., who are experienced physics teachers from Indonesia.

Q: Who is the publisher of this book?

• A: The publisher of this book is Sagufindo Kinarya, which is a reputable publisher that specializes in educational books.

Q: What is the grade level of this book?

• A: This book is designed for high school students who are studying physics in grade 11 B curriculum.

Q: What are the topics covered in this book?

• and optics, and electricity and magnetism.

Q: What are the features of the book?

• A: The features of the book include clear explanations and examples, exercises and problems, summary and review questions, practical activities and experiments.

Q: Where can I buy this book?

• A: You can buy this book online from various websites such as Tokopedia, Bukalapak, Shopee or Lazada. You can also find this book in some bookstores or libraries.