Clutch Prep
Physics
Physics
Science
Analytical Chemistry
Anatomy & Physiology
Biology
Biochemistry
Chemistry
Cell Biology
Genetics
Organic Chemistry
Physics
Business
Accounting
Macroeconomics
Microeconomics
Math
Calculus
Statistics
Chapter Videos
Exam Reviews
More
Chapter Videos
Exam Reviews
Log In
Sign up
Cutnell 11th Edition - Physics Tutoring Videos
ISBN: 978-1-119-32634-2
Not the textbook you were looking for? Pick another one here
26,896
students have used Clutch for Phy
97%
got a better grade
3,312
minutes of Physics videos
Cutnell (11th) Topics and Chapters that we cover
Ch 01: Introduction & Mathematical Concepts
Intro, Units & Conversions
Start
0%
Intro to Vectors (Basic Trigonometry)
Start
0%
Vectors with More Trigonometry
Start
0%
Ch 02: Kinematics in One Dimension
Intro to Motion (Kinematics)
Start
0%
Motion with Multiple Parts
Start
0%
Meet/Catch Problems
Start
0%
Vertical Motion
Start
0%
Ch 03: Kinematics in Two Dimensions
Intro to 2D Motion
Start
0%
Projectile Motion
Start
0%
More Projectile Motion
Start
0%
Initial Velocity in Projectile Motion
Start
0%
Ch 04: Forces & Newton's Laws of Motion
Intro to Forces + Newton's Laws
Start
0%
Force Problems with Motion
Start
0%
Forces with Multiple Objects
Start
0%
Vertical Forces & Equilibrium
Start
0%
More 1D Equilibrium
Start
0%
Vertical Forces & Acceleration
Start
0%
Landing & Jumping Problems
Start
0%
Forces in 2D
Start
0%
2D Equilibrium
Start
0%
Newton's Law of Gravity
Start
0%
Gravitational Forces in 2D
Start
0%
Acceleration Due to Gravity
Start
0%
Intro to Friction
Start
0%
Kinetic Friction
Start
0%
Static Friction
Start
0%
Inclined Planes
Start
0%
Inclines with Friction
Start
0%
Forces in Connected Objects (Systems)
Start
0%
Ch 05: Dynamics of Uniform Circular Motion
Circular Motion
Start
0%
Centripetal Forces
Start
0%
Satellite Motion: Intro
Start
0%
Satellite Motion: Speed & Period
Start
0%
Geosynchronous Orbits
Start
0%
Ch 06: Work & Energy
Intro to Energy
Start
0%
Intro to Calculating Work
Start
0%
Work By Gravity & Inclined Planes
Start
0%
Work By Variable Forces (Springs)
Start
0%
Net Work & Kinetic Energy
Start
0%
More Work-Energy Problems
Start
0%
Power
Start
0%
Escape Velocity
Start
0%
Intro to Conservation of Energy
Start
0%
Energy with Non-Conservative Forces
Start
0%
Conservative Forces & Inclined Planes
Start
0%
Motion Along Curved Paths
Start
0%
Energy in Connected Objects (Systems)
Start
0%
Solving Projectile Motion Using Energy
Start
0%
Springs & Elastic Potential Energy
Start
0%
Ch 07: Impulse & Momentum
Intro to Momentum
Start
0%
Intro to Impulse
Start
0%
Impulse with Variable Forces
Start
0%
Intro to Conservation of Momentum
Start
0%
Push-Away Problems
Start
0%
Adding Mass to a Moving System
Start
0%
How to Identify the Type of Collision
Start
0%
Inelastic Collisions
Start
0%
2D Collisions
Start
0%
Momentum & Impulse in 2D
Start
0%
Push-Away Problems With Energy
Start
0%
Elastic Collisions
Start
0%
Collisions & Motion (Momentum & Energy)
Start
0%
Collisions with Springs
Start
0%
Intro to Center of Mass
Start
0%
Ch 08: Rotational Kinematics
Rotational Position & Displacement
Start
0%
Rotational Velocity & Acceleration
Start
0%
Equations of Rotational Motion
Start
0%
Converting Between Linear & Rotational
Start
0%
Types of Acceleration in Rotation
Start
0%
Rolling Motion (Free Wheels)
Start
0%
Intro to Connected Wheels
Start
0%
More Connect Wheels (Bicycles)
Start
0%
Ch 09: Rotational Dynamics
Intro to Torque
Start
0%
Net Torque & Sign of Torque
Start
0%
Torque on Discs & Pulleys
Start
0%
Torque Due to Weight
Start
0%
Torque & Acceleration (Rotational Dynamics)
Start
0%
How to Solve: Energy vs Torque
Start
0%
Torque & Equilibrium
Start
0%
Equilibrium with Multiple Objects
Start
0%
Equilibrium with Multiple Supports
Start
0%
Review: Center of Mass
Start
0%
Center of Mass & Simple Balance
Start
0%
Equilibrium in 2D - Ladder Problems
Start
0%
Beam / Shelf Against a Wall
Start
0%
More 2D Equilibrium Problems
Start
0%
Intro to Center of Mass
Start
0%
Conservation of Energy with Rotation
Start
0%
More Conservation of Energy Problems
Start
0%
Moment of Inertia of Systems
Start
0%
Parallel Axis Theorem
Start
0%
Moment of Inertia via Integration
Start
0%
Intro to Moment of Inertia
Start
0%
Moment of Inertia & Mass Distribution
Start
0%
Intro to Rotational Kinetic Energy
Start
0%
Types of Motion & Energy
Start
0%
Energy of Rolling Motion
Start
0%
Conservation of Energy in Rolling Motion
Start
0%
Torque with Kinematic Equations
Start
0%
Rotational Dynamics with Two Motions
Start
0%
Rotational Dynamics of Rolling Motion
Start
0%
Intro to Angular Momentum
Start
0%
Angular Momentum of a Point Mass
Start
0%
Conservation of Angular Momentum
Start
0%
Spinning on String of Variable Length
Start
0%
Opening/Closing Arms on Rotating Stool
Start
0%
Intro to Angular Collisions
Start
0%
Angular Momentum & Newton's Second Law
Start
0%
Jumping Into/Out of Moving Disc
Start
0%
Conservation of Angular Momentum
Start
0%
Angular Momentum of Objects in Linear Motion
Start
0%
Angular Collisions with Linear Motion
Start
0%
Angular Momentum & Newton's Second Law
Start
0%
Ch 10: Simple Harmonic Motion & Elasticity
Spring Force (Hooke's Law)
Start
0%
Intro to Simple Harmonic Motion (Horizontal Springs)
Start
0%
Energy in Simple Harmonic Motion
Start
0%
Simple Harmonic Motion of Vertical Springs
Start
0%
Simple Harmonic Motion of Pendulums
Start
0%
Energy in Pendulums
Start
0%
Ch 11: Fluids
Density
Start
0%
Intro to Pressure
Start
0%
Pascal's Law & Hydraulic Lift
Start
0%
Pressure Gauge: Barometer
Start
0%
Pressure Gauge: Manometer
Start
0%
Pressure Gauge: U-shaped Tube
Start
0%
Buoyancy & Buoyant Force
Start
0%
Ideal vs Real Fluids
Start
0%
Fluid Flow & Continuity Equation
Start
0%
Ch 12: Temperature & Heat
Temperature
Start
0%
Thermal Expansion
Start
0%
Introduction to Heat
Start
0%
Calorimetry
Start
0%
Changes in Phase & Latent Heat
Start
0%
Phase Diagrams, Triple Points and Critical Points
Start
0%
Ch 13: The Transfer of Heat
Heat Transfer
Start
0%
Ch 14: The Ideal Gas Law & Kinetic Theory
Introduction to Ideal Gasses
Start
0%
Kinetic Theory of Gasses
Start
0%
Ch 15: Thermodynamics
Zeroth Law of Thermodynamics
Start
0%
Internal Energy
Start
0%
Introduction to Heat Capacity
Start
0%
First Law of Thermodynamics
Start
0%
Thermal Processes
Start
0%
Carnot Cycle
Start
0%
Changes in Temperature & Heat Capacity
Start
0%
Refrigerators
Start
0%
Entropy and the Second Law
Start
0%
Ch 16: Waves & Sound
What is a Wave?
Start
0%
The Mathematical Description of a Wave
Start
0%
Waves on a String
Start
0%
Wave Interference
Start
0%
Standing Waves
Start
0%
Sound Waves
Start
0%
Sound Intensity
Start
0%
The Doppler Effect
Start
0%
Ch 17: The Principle of Linear Superposition and Interference Phenomena
Standing Sound Waves
Start
0%
Beats
Start
0%
Ch 18: Electric Forces and Electric Fields
Electric Charge
Start
0%
Charging Objects
Start
0%
Charging By Induction
Start
0%
Conservation of Charge
Start
0%
Coulomb's Law (Electric Force)
Start
0%
Electric Field
Start
0%
Parallel Plate Capacitors
Start
0%
Electric Field Lines
Start
0%
Dipole Moment
Start
0%
Electric Fields in Conductors
Start
0%
Electric Flux
Start
0%
Gauss' Law
Start
0%
Ch 19: Electric Potential Energy & Electric Potential
Electric Potential Energy
Start
0%
Electric Potential
Start
0%
Work From Electric Force
Start
0%
Relationships Between Force, Field, Energy, Potential
Start
0%
The ElectronVolt
Start
0%
Equipotential Surfaces
Start
0%
Capacitors & Capacitance
Start
0%
Parallel Plate Capacitors
Start
0%
Energy Stored by Capacitor
Start
0%
Intro To Dielectrics
Start
0%
How Dielectrics Work
Start
0%
Ch 20: Electric Circuits
Intro to Current
Start
0%
Resistors and Ohm's Law
Start
0%
Power in Circuits
Start
0%
Combining Resistors in Series & Parallel
Start
0%
Kirchhoff's Junction Rule
Start
0%
Solving Resistor Circuits
Start
0%
Combining Capacitors in Series & Parallel
Start
0%
Solving Capacitor Circuits
Start
0%
Kirchhoff's Loop Rule
Start
0%
Ch 21: Magnetic Forces and Magnetic Fields
Magnets and Magnetic Fields
Start
0%
Summary of Magnetism Problems
Start
0%
Force on Moving Charges & Right Hand Rule
Start
0%
Circular Motion of Charges in Magnetic Fields
Start
0%
Mass Spectrometer
Start
0%
Magnetic Force on Current-Carrying Wire
Start
0%
Force and Torque on Current Loops
Start
0%
Magnetic Field Produced by Moving Charges
Start
0%
Magnetic Field Produced by Straight Currents
Start
0%
Magnetic Force Between Parallel Currents
Start
0%
Magnetic Force Between Two Moving Charges
Start
0%
Magnetic Field Produced by Loops and Solenoids
Start
0%
Toroidal Solenoids aka Toroids
Start
0%
Biot-Savart Law with Calculus
Start
0%
Ampere's Law with Calculus
Start
0%
Ch 22: Electromagnetic Induction
Induction Experiments
Start
0%
Magnetic Flux
Start
0%
Faraday's Law
Start
0%
Lenz's Law
Start
0%
Motional EMF
Start
0%
Transformers
Start
0%
Mutual Inductance
Start
0%
Self Inductance
Start
0%
Inductors
Start
0%
Ch 23: Alternating Current Circuits
Alternating Voltages and Currents
Start
0%
RMS Current and Voltage
Start
0%
Phasors
Start
0%
Resistors in AC Circuits
Start
0%
Capacitors in AC Circuits
Start
0%
Phasors for Capacitors
Start
0%
Impedance in AC Circuits
Start
0%
Inductors in AC Circuits
Start
0%
Phasors for Inductors
Start
0%
Series LRC Circuits
Start
0%
Resonance in Series LRC Circuits
Start
0%
Power in AC Circuits
Start
0%
Phasors for Resistors
Start
0%
LR Circuits
Start
0%
Ch 24: Electromagnetic Waves
What is an Electromagnetic Wave?
Start
0%
The Electromagnetic Spectrum
Start
0%
Energy Carried by Electromagnetic Waves
Start
0%
Polarization Filters
Start
0%
Ch 25: The Reflection of Light: Mirrors
Ray Nature Of Light
Start
0%
Reflection Of Light
Start
0%
Refraction Of Light
Start
0%
Total Internal Reflection
Start
0%
Ray Diagrams For Mirrors
Start
0%
Mirror Equation
Start
0%
Ch 26: The Refraction of Light: Lenses and Optical Instruments
Refraction At Spherical Surfaces
Start
0%
Ray Diagrams For Lenses
Start
0%
Thin Lens And Lens Maker Equations
Start
0%
Ch 27: Interference and The Wave Nature of Light
Diffraction
Start
0%
Diffraction with Huygen's Principle
Start
0%
Young's Double Slit Experiment
Start
0%
Single Slit Diffraction
Start
0%
Ch 28: Special Relativity
Inertial Reference Frames
Start
0%
Special Vs. Galilean Relativity
Start
0%
Consequences of Relativity
Start
0%
Lorentz Transformations
Start
0%
Ch 29: Particles and Waves
Particle-Wave Duality
Start
0%
Ch 30: The Nature of the Atom
Atomic Structure
Start
0%
Ch 31: Nuclear Physics and Radioactivity
Nuclear Physics
Start
0%
Ch 32: Ionizing Radiation, Nuclear Energy, and Elementary Particles
Particle Physics
Start
0%
Quantum Mechanics
Start
0%
Sign in with Facebook
Sign in with Gmail
OR
Email
Password
If you forgot your password, you can
reset it
.