13. ´ÜÀ§È¯»êÇ¥
 

Àü±â/ÀüÀÚ ´ÜÀ§

 

Ç׸ñ

±âȣǥ½Ã

»êÃâ°ø½Ä

SI ˤ

SI±âÈ£

CGS´ÜÀ§

¹è¼ö(CGS/SI)

Àü·ù

I, i

I=E/R, I=E/Z, I=Q/t

Ampere

A

Abampere

10-1

ÀüÇÏ·®

Q, q

Q=I×t, Q=C×E

Coulomb

C

Abcoulomb

10-1

Àü¾Ð

E, e

E=I×R, E=W/Q

Volt

V

Abvolt

108

ÀúÇ×

R, r

R=E/I, R=(¥ñ×l)/A

Ohm

§Ù

Abohm

109

ÀúÇ×·ü

¥ñ

p=(R×A)/l

Ohm-meter

§Ù·m

Abohm-cm

1011

Conductance

G, g

G=(¥ã×A)/l, G=A/(¥ñ×l)

Siemens

S

Abmho

10-9

µµÀüÀ²

G

G=R/Z2

Siemens

S

Abmho

10-9

Capacitance

¥ã

¥ã=l/¥ñ, ¥ã=l/(R×A)

Siemens-meter

S/m

Abmho/cm

10-11

C

C=Q/E

Farad

F

Abrarad

10-9

À¯ÀüÀ²

¥å

 

Farad/meter

F/m

Stat farad/cm

8.85×10-12

»ó´ëÀ¯ÀüÀ²

¥år

¥år=¥å/¥åo

Numerical

 

Numerical

1

ÀÚ±âÀ¯µµ

L

L=-N×(d§j/dt)

Henry

H

Abhenry

109

»óÈ£À¯µµ

M

M=K×(L1×L2)1/2

Henry

H

Abhenry

109

Energy

J

J=e×I×t

Joule

J

Erg

107

kWh

kWh=kW/3600, 3.6M×J

Kilowatthour

kWh

 

36×1012

À¯È¿Àü·Â

W

W=J/t, W=E×I×cos¥è

Watt

W

Abwatt

107

¹«È¿Àü·Â

jQ

jQ=E×I×sin¥è

Var

var

Abvar

107

ÇÇ»óÀü·Â

VA

VA=E×I

Volt-ampere

VA

 

 

¿ª·ü

PF, pf

PF=W/(V×A), PF=W/(W+jQ)

Ohm

 

 

1

À¯µµ Reactance

XL

XL=2¥ð×f×L

Ohm

§Ù

Abohm

109

¿ë·® Reactance

XC

XC=1/(2¥ð×f×C)

Ohm

§Ù

Abohm

109

Impedance

Z

Z=E/I, Z=R+j×(XL-XC)

Siemens

§Ù

Abohm

109

Susceptance

B

B=X/Z2

Siemens

S

Abohm

10-9

Adimittance

Y

Y=I/E, Y=G+jB

Hertz

S

Abohm

10-9

ÁÖÆļö

f

f=1/T

Second

Hz

Cps, Hz

1

ÁÖ±â

T

T=1/f

Second

s

Second

1

½Ã°£»ó¼ö

T

T=L/R, T=R×C

Radians/second

s

Second

1

°¢¼Óµµ

¥ø

¥ø=2¥ð×f

 

rad/s

Radians/second

1