Brainscape
Find Flashcards
Make Flashcards
Why It Works
More
Educators
Businesses
Tutors & resellers
Content partnerships
Academy
About
Educators
Teachers & professors
Content partnerships
Tutors & resellers
Businesses
Employee training
Content partnerships
Tutors & resellers
Academy
About
Log In
Get Started
Brainscape's Knowledge Genome
TM
Browse over 1 million classes created by top students, professors, publishers, and experts.
Entrance Exams
Professional Certifications
Foreign Languages
Medical & Nursing
Science
English
Humanities & Social Studies
Mathematics
Law
Vocations
Health & Fitness
Business & Finance
Technology & Engineering
Food & Beverage
Fine Arts
Random Knowledge
See full index
Physics
> 6.2.4.2 energy transfers in everyday appliances > Flashcards
6.2.4.2 energy transfers in everyday appliances Flashcards
Study These Flashcards
You may prefer our related Brainscape-certified flashcards:
Physics 101
flashcards
AP® Physics
flashcards
Physics
(69 decks)
6.1 Energy
6.1.1.1 energy stores and systems
6.1.1.2 changes in energy
6.1.1.3 energy changes in systems
6.1.1.4 power
6.1.2.1 energy transfers in a system
6.1.2.2 efficiency
6.1.3 national and global energy resources
6.2.1.1 standard circuit diagram symbols
6.2.1.2 electrical charge and current
6.2.1.3 current, resistance and potential difference
6.2.1.4 resistors
6.2.2 series and parallel circuits
6.2.3.1 direct and alternating potential difference
6.2.3.2 mains electricity
6.2.4.1 power
6.2.4.2 energy transfers in everyday appliances
6.2.4.3 the national grid
6.3.1.1 density of materials
6.3.1.2 changes of state
6.3.2.1 internal energy
6.3.2.2 temperature changes in a system and specific head capacity
6.3.2.3 changes of state and specific latent heat
6.3.3.1 particle motion in gases
5.4.1.1 the structure of an atom
6.4.1.2 mass number, atomic number and isotopes
6.4.1.3 the development of the model of the atom (common content with chemistry)
6.4.2.1 radioactive decay and nuclear radiation
6.4.2.2 nuclear equations
6.4.2.3 half-live and the random nature of radioactive decay
6.4.2.4 radioactive contamination
6.5.1.1 scalar and vector quantities
6.5.1.2 contact and non-contact forces
6.5.1.3 gravity
6.5.1.4 resultant forces
6.5.2 work done and energy transfer
6.5.3 forces and elasticity
6.5.4.1.1 distance and displacement
6.5.4.1.2 speed
6.5.4.1.3 velocity
6.5.4.1.4 the distance-time relationship
6.5.4.1.5 acceleration
6.5.4.2.1 newton’s first law
6.5.4.2.2 newton’s second law
6.5.4.2.3 newton’s third law
6.5.4.3.1 stopping distance
6.5.4.3.2 reaction time
6.5.4.3.3 factors affecting braking distance 1
6.5.4.3.4 factors affecting braking distance 2
6.5.5.1 momentum is a property of moving objects
6.5.5.2 conservation of momentum
6.6.1.1 transverse and longitudinal waves
6.6.1.2 properties of waves
6.6.2.1 types of electromagnetic waves
6.6.2.2 properties of electromagnetic waves 1
6.6.2.3 properties of electromagnetic waves 2
6.6.2.4 uses and applications of electromagnetic waves
6.7.2.2 poles of a magnet
6.7.1.2 magnetic fields
6.7.2.1 electromagnetism
6.7.2.2 Fleming’s left-hand rule
6.7.2.3 electric motors
Equations
Leslie’s cube Required Practical
General
Ripple tank required practical
The measuring of frequency, wavelength and wave speed of waves in a string required practical
Waves terminology
Hookes law required practical