definition

scalar

Phenomenon

Faraday's law of electromagnetic induction

subtopic

The magnetic field does not change and the conductor moves

The non-electrostatic force that generates electromotive force is: Lorentz force

formula

1. Let’s examine a small distance first: d

2. About arcs: Add a line segment to form a closed curve

3. When judging the general direction, if there are two power sources, look at which power source is larger and which one is used as the conductor.

The magnetic field changes, but the conductor does not move

The changing magnetic field will excite points with closed electric field lines around it, which is called induced electric field or vortex electric field.

The system performs work externally

The outside world does work on the system

Heat capacity

Fixed volume, V remains unchanged

Constant pressure

Calculation of calories

Yuan Gong

Total merit

illustrate

External work done: V remains unchanged

PV=constant

The graph is a curve

Compare work: compare the areas of P-V graphs

definition

hot

definition

Refrigerator

concept

image

efficiency

Cooling coefficient

illustrate

It is impossible to absorb heat from a single heat source and convert it completely into useful work without causing other effects

It is impossible to go from low to high without having an impact

1. All actual processes related to thermal phenomena are irreversible

2. In fact, any statement of an irreversible process is the second law of thermodynamics

From a macro perspective, it always proceeds in the direction of increasing thermodynamic probability.

state parameters

equilibrium state

R: Universal gas constant = 8.31J/(mol*k)

First

another form

physical meaning

Three rate statistics

ideal gas pressure

temperature

1. Conversion unit

2. sequential formula

3. column formula

= Energy of all molecules Potential energy between molecules

only related to temperature

concept

degrees of freedom of gas molecules

The average kinetic energy of a molecule is equal in every degree of freedom

average total energy of a molecule

illustrate

concept

Translational motion

turn

Influencing factors

Several special moments of inertia

When M=0 (even if J keeps changing, it is still conserved)

1. Select the system. When colliding, give priority to the conservation of angular momentum.

2. Analyze separately, and whether M=0

3. applying its formula

Definition: p=mv

Apply the momentum theorem to each particle, and then perform the summation

conservation law

The same particle, relative reference system, has different angular momentum

concept

Have the willpower

The angular momentum of the particle (that is, calculated by integrating)

Current:

work of curve

law of kinetic energy of particles

The kinetic energy theorem of a system of particles

gravity

gravity

Elasticity

conservative force

It has nothing to do with the path, only the beginning and the end

definition

conservation of mechanical energy

r=xi yj zk

Directional cosines: cos⁡α=x/r, cos⁡β=y/r, cos⁡γ=z/r

Describes the process by which the spatial position of a particle changes with time

r=x(t)i y(t)j z(t)k

Average speed: V=rB(t △t)-rA(t)/△t=△r/△t

Instantaneous speed: V= dr/dt (find the derivative of displacement)

Average speed: ds/dt (derivative of distance)

Average acceleration: a=△v/△t (△v is the time interval)

Instantaneous acceleration (also called acceleration): dv/dt (derivative of velocity)

Angular displacement: θ

Angular displacement: △θ

Angular velocity: ω=dθ/dt

several formulas

The relationship between angle quantity and line quantity

several concepts