Verified
Brake power of the engine for belt transmission dynamometer

Verified
Brake power of the engine for prony brake dynamometer

Verified
Brake power of the engine for prony brake dynamometer

Verified
Brake power of the engine for prony brake dynamometer

Verified
Brake power of the engine for rope brake dynamometer

Verified
Brake power of the engine if diameter of rope is neglected for rope brake dynamometer

Verified
Braking force on the drum for simple band brake

Verified
Braking torque for a double block or shoe brake

Verified
Braking torque for a pivoted block or shoe brake

Verified
Braking torque for shoe brake if line of action of tangential force passes above fulcrum(anti clock)

Verified
Braking torque for shoe brake when force applied at the end of lever is known

Verified
Braking torque for the shoe brake

Verified
Braking torque of shoe brake if line of action of tangential force passes above fulcrum(clockwise)

Verified
Braking torque of shoe brake if line of action of tangential force passes below fulcrum(anti clock)

Verified
Braking torque of shoe brake if line of action of tangential force passes below fulcrum(clockwise)

Verified
Constant for a particular shaft for torsion dynamometer

Verified
Distance moved in one revolution by rope brake dynamometer

Verified
Effective radius of the drum for the simple band brake

Verified
Maximum braking force acting at the front wheels(when brakes are applied to front wheels only)

Verified
Maximum value of total braking force acting at the rear wheels(brake applied to rear wheels only)

Verified
Netload on the brake for rope brake dynamometer

Verified
Normal force for shoe brake if line of action of tangential force passes above fulcrum(anti clock)

Verified
Normal force for shoe brake if line of action of tangential force passes above fulcrum(clockwise)

Verified
Normal force for shoe brake if line of action of tangential force passes below fulcrum(anticlock)

Verified
Normal force for shoe brake if line of action of tangential force passes below fulcrum(clockwise)

Verified
Normal force pressing the brake block on the wheel(shoe brake)

Verified
Polar moment of inertia of the shaft for a hollow shaft for torsion dynamometer

Verified
Polar moment of inertia of the shaft for a solid shaft for torsion dynamometer

Verified
Polar moment of inertia of the shaft for torsion dynamometer

Verified
Power transmitted for epicyclic-train dynamometer

Verified
Power transmitted for the torsion dynamometer

Verified
Power transmitted if tangential effort is known for epicyclic-train dynamometer

Verified
Retardation of the vehicle if the vehicle moves down the plane(brake applied to all four wheels)

Verified
Retardation of the vehicle if the vehicle moves down the plane(brake applied to front wheels only)

Verified
Retardation of the vehicle when vehicle moves on a level track(brake applied to all four wheels)

Verified
Retardation of the vehicle when vehicle moves on a level track(brake applied to front wheels only)

Verified
Retardation of the vehicle(brake applied to all four wheels)

Verified
Retardation of the vehicle(brake applied to front wheels only)

Verified
Retardation of the vehicle(brake applied to rear wheels only)

Verified
Tangential braking force acting at the contact surface of the block and the wheel for shoe brake

Verified
Tangential braking force if normal force pressing the brake block on the wheel is known

Verified
Tangential effort for epicyclic-train dynamometer

Verified
Tension in the slack side of the belt for belt transmission dynamometer

Verified
Tension in the tight side of the belt for belt transmission dynamometer

Verified
Tension in tight side of the band for simple band brake

Verified
torque acting on the shaft for torsion dynamometer

Verified
Torque on the shaft of prony brake dynamometer

Verified
Torque on the shaft of prony brake dynamometer if the radius of the pulley is known

Verified
Torque transmitted for epicyclic-train dynamometer

Verified
Torque transmitted if power is known for epicyclic-train dynamometer

Verified
Torsion equation for torsion dynamometer

Verified
Torsion equation for torsion dynamometer

Verified
Total braking force (in newtons) acting at the rear wheels(brake applied to rear wheels only)

Verified
Total braking force acting at the front wheels(when brakes are applied to front wheels only)

Verified
Total normal reaction b/w ground and front wheels(when α=0)(brake applied to all four wheels)

Verified
Total normal reaction b/w ground and front wheels(when α=0)(brake applied to front wheels only)

Verified
Total normal reaction b/w ground and rear wheels(when α=0)(brake applied to all four wheels)

Verified
Total normal reaction b/w ground and rear wheels(when α=0)(brake applied to front wheels only)

Verified
Total normal reaction between the ground and the front wheels(brake applied to all four wheels)

Verified
Total normal reaction between the ground and the front wheels(brake applied to front wheels only)

Verified
Total normal reaction between the ground and the front wheels(brake applied to rear wheels only)

Verified
Total normal reaction between the ground and the rear wheels(brake applied to all four wheels)

Verified
Total normal reaction between the ground and the rear wheels(brake applied to front wheels only)

Verified
Total normal reaction between the ground and the rear wheels(brake applied to rear wheels only)

Verified
Work done in one revolution for belt transmission dynamometer

Verified
Work done in one revolution for prony brake dynamometer

Verified
Work done per minute for prony brake dynamometer

Verified
Work done per minute for rope brake dynamometer

Verified
Work done per minute for the belt transmission dynamometer

Verified
Work done per revolution for rope brake dynamometer

13 More Brakes and Dynamometers Calculators

Verified
Acceleration of the follower after time t (Cycloidal motion)

Verified
Acceleration of the follower for circular arc cam(contact on the circular flank)

Verified
Acceleration of the follower for tangent cam with roller follower(contact with straight flanks)

Verified
Acceleration of the follower of tangent cam with roller follower(contact with nose)

Verified
Centripetal acceleration of the point P on circumference

Verified
Centripetal acceleration of the point P on circumference when the follower moves with SHM

Verified
Condition for contact of roller if straight flank merges into nose(tangent cam with roller follower)

Verified
condition for maximum velocity of follower (Cycloidal motion)

Verified
Condition for the maximum acceleration of follower (Cycloidal motion)

Verified
Displacement of roller for tangent cam with roller follower(contact with straight flanks)

Verified
Displacement of the follower after time t (Cycloidal motion)

Verified
Displacement of the follower for circular arc cam(contact on the circular flank)

Verified
Displacement of the roller of tangent cam with roller follower(contact with nose)

Verified
Distance b/w roller center and nose center of tangent cam with roller follower(contact with nose)

Verified
Max acceleration of follower during outstroke if outstroke velocity is known(uniform acceleration)

Verified
Max acceleration of follower during outstroke if stroke of follower is known(uniform acceleration)

Verified
Max acceleration of follower during return stroke if follower speed is known(uniform acceleration)

Verified
Max acceleration of follower during return stroke if follower stroke is known(uniform acceleration)

Verified
Max acceleration of follower for tangent cam with roller follower(contact with straight flanks)

Verified
Max velocity of the follower for tangent cam with roller follower(contact with straight flanks)

Verified
Maximum acceleration of the follower during outstroke (Cycloidal motion)

Verified
Maximum acceleration of the follower during outstroke(uniform acceleration)

Verified
Maximum acceleration of the follower during return stroke (Cycloidal motion)

Verified
Maximum acceleration of the follower during return stroke(uniform acceleration)

Verified
Maximum acceleration of the follower for circular arc cam(contact on the circular flank)

Verified
Maximum acceleration of the follower on the outstroke when the follower moves with SHM

Verified
Maximum acceleration of the follower on the return stroke when the follower moves with SHM

Verified
Maximum velocity of the follower during outstroke (Cycloidal motion)

Verified
Maximum velocity of the follower during outstroke(uniform acceleration)

Verified
Maximum velocity of the follower during outstroke(uniform acceleration)

Verified
Maximum velocity of the follower during return stroke (Cycloidal motion)

Verified
Maximum velocity of the follower during return stroke(uniform acceleration)

Verified
Maximum velocity of the follower during return stroke(uniform acceleration)

Verified
Maximum velocity of the follower for circular arc cam(contact on the circular flank)

Verified
Maximum velocity of the follower on the outstroke when the follower moves with SHM

Verified
Maximum velocity of the follower on the outstroke when the follower moves with SHM

Verified
Maximum velocity of the follower on the return stroke when the follower moves with SHM

Verified
Mean velocity of the follower during outstroke(uniform acceleration)

Verified
Mean velocity of the follower during the return stroke(uniform acceleration)

Verified
Min acceleration of follower for tangent cam with roller follower(contact with straight flanks)

Verified
Minimum acceleration of the follower for circular arc cam(contact on the circular flank)

Verified
Peripheral speed of projection of point P'(which is projection of point P on dia)for SHM of follower

Verified
Peripheral speed of projection of point P′(which is projection of point P on dia)for SHM of follower

Verified
Time required for a follower during outstroke(uniform acceleration)

Verified
Time required for the follower during return stroke(uniform acceleration)

Verified
Time required for the out stroke of the follower when the follower moves with SHM

Verified
Velocity of the follower after time t (Cycloidal motion)

Verified
Velocity of the follower for circular arc cam(contact on the circular flank)

Verified
Velocity of the follower for tangent cam with roller follower(contact with straight flanks)

Verified
Velocity of the follower of tangent cam with roller follower(contact with nose)

Verified
Change in circumference of vessel due to pressure in terms of circumferential strain

Verified
Change in diameter in thin cylindrical strain in terms of volumetric strain

Verified
Change in diameter of cylindrical shell in terms of change in volume of cylindrical shell

Verified
Change in diameter of thin cylindrical vessel in terms of circumferential strain

Verified
Change in diameter of vessel in terms of internal fluid pressure

Verified
Change in length in thin cylindrical strain in terms of volumetric strain

Verified
Change in length of cylindrical shell in terms of change in volume of cylindrical shell

Verified
Change in length of thin cylindrical shell in terms of internal fluid pressure

Verified
Change in length of thin cylindrical vessel in terms of longitudinal strain

Verified
Change in volume in terms of circumferential strain and longitudinal strain

Verified
Change in volume of cylindrical shell in terms of volumetric strain

Verified
Change in volume of thin cylindrical shell

Verified
Circumferential strain in terms of circumference

Verified
Circumferential strain in terms of hoop stress

Verified
Circumferential strain in terms of internal fluid pressure

Verified
Circumferential strain in terms of volume of thin cylindrical shell

Verified
Circumferential strain in terms of volumetric strain for thin cylindrical shell

Verified
Circumferential strain of vessel in terms of diameter

Verified
Diameter of cylindrical shell in terms of change in length of cylindrical shell

Verified
Diameter of thin cylindrical shell in terms of volumetric strain

Verified
Diameter of thin cylindrical strain in terms of volumetric strain

Verified
Hoop stress in terms of circumferential strain

Verified
Hoop stress in thin cylindrical vessel in terms of Longitudinal strain

Verified
Internal diameter of thin cylindrical vessel in terms of circumferential strain

Verified
Internal diameter of thin cylindrical vessel in terms of longitudinal strain

Verified
Internal fluid pressure in shell in terms of volumetric strain

Verified
Internal fluid pressure in terms of change in length of cylindrical shell

Verified
Internal fluid pressure in terms of circumferential strain

Verified
Internal fluid pressure in thin cylindrical vessel in terms of longitudinal strain

Verified
Internal fluid pressure in vessel in terms of change in diameter

Verified
Length of cylindrical shell in terms of change in length of cylindrical shell

Verified
Length of cylindrical shell in terms of change in volume of cylindrical shell

Verified
Length of thin cylindrical strain in terms of volumetric strain

Verified
Longitudinal strain for vessel in terms of change in length

Verified
Longitudinal strain in terms of hoop and longitudinal stress

Verified
Longitudinal strain in terms of volume of thin cylindrical shell

Verified
Longitudinal strain in terms of volumetric strain for thin cylindrical shell

Verified
Longitudinal strain in thin cylindrical vessel in terms of internal fluid pressure

Verified
Longitudinal stress in terms of circumferential strain

Verified
Longitudinal stress in thin cylindrical vessel in terms of Longitudinal strain

Verified
Modulus of elasticity in terms of circumferential strain

Verified
Modulus of elasticity of shell material in terms of change in length of cylindrical shell

Verified
Modulus of elasticity of thin cylindrical shell in terms of volumetric strain

Verified
Modulus of elasticity of vessel in terms of circumferential strain

Verified
Modulus of elasticity of vessel material in terms of change in diameter

Verified
Modulus of elasticity of vessel material in terms of longitudinal strain

Verified
Modulus of elasticity of vessel material in terms of Longitudinal strain

Verified
Original circumference of thin cylindrical vessel in terms of circumferential strain

Verified
Original diameter of thin cylindrical vessel in terms of circumferential strain

Verified
Original diameter of vessel in terms of change in diameter

Verified
Original length of vessel in terms of longitudinal strain

Verified
Original volume of cylindrical shell in terms of volumetric strain

Verified
Poisson's ratio for thin cylindrical vessel in terms of change in diameter

Verified
Poisson's ratio in terms of change in length of cylindrical shell

Verified
Poisson's ratio in terms of circumferential strain

Verified
Poisson's ratio in terms of circumferential strain

Verified
Poisson's ratio in terms of Longitudinal strain

Verified
Poisson's ratio in terms of longitudinal strain and internal fluid pressure in vessel

Verified
Poisson's ratio in terms of volumetric strain of thin cylindrical shell

Verified
Thickness of cylindrical shell in terms of change in length of cylindrical shell

Verified
Thickness of thin cylindrical shell in terms of volumetric strain

Verified
Thickness of thin cylindrical vessel in terms of circumferential strain

Verified
Thickness of thin cylindrical vessel in terms of longitudinal strain

Verified
Thickness of vessel in terms of change in diameter

Verified
Volume of thin cylindrical shell in terms of circumferential and longitudinal strain

Verified
Volumetric strain in terms of circumferential strain and longitudinal strain

Verified
Volumetric strain in terms of internal fluid pressure

Verified
Volumetric strain of thin cylindrical shell

Verified
Volumetric strain of thin cylindrical shell

Verified
Angle b/w the axis of radius of rotation and line joining a point on the curve to the origin O

Verified
Angle b/w the axis of radius of rotation and line joining a point on the curve to the origin O

Verified
Centrifugal force at maximum equilibrium speed on each ball for wilson-hartnell governor

Verified
Centrifugal force at maximum radius of rotation

Verified
Centrifugal force at minimum equilibrium speed on each ball for wilson-hartnell governor

Verified
Centrifugal force at minimum radius of rotation

Verified
Centrifugal force for Hartung governor

Verified
Centrifugal force for pickering governor

Verified
Centrifugal force on each ball for wilson-hartnell governor

Verified
Coefficient of insensitiveness

Verified
Coefficient of insensitiveness

Verified
Coefficient of insensitiveness for porter governor(if angle made by upper & lower arm aren't equal)

Verified
Coefficient of insensitiveness for porter governor(if angle made by upper and lower arm are equal)

Verified
Coefficient of insensitiveness for the Hartnell governor

Verified
Coefficient of insensitiveness when all the arms of porter governor are attached to governor axis

Verified
Coefficient of insensitiveness when lower arm is not attached on the governor axis(Porter governor)

Verified
Controlling force for porter governor

Verified
Controlling force for porter governor

Verified
Corresponding radial force required at each ball for spring loaded governors

Verified
Corresponding radial force required at each ball for the porter governor

Verified
Deflection of the center of the leaf spring in pickering governor

Verified
Deflection of the center of the leaf spring in pickering governor

Verified
Effort of a porter governor(if angle made by upper and lower arms are equal)

Verified
Effort of a porter governor(if angle made by upper and lower arms are not equal)

Verified
Lift of the sleeve at maximum radius of rotation(Hartnell governor)

Verified
Lift of the sleeve at minimum radius of rotation(Hartnell governor)

Verified
Lift of the sleeve corresponding to the deflection

Verified
Lift of the sleeve for porter governor (if angle made by upper and lower arms are equal)

Verified
Lift of the sleeve for porter governor (if angle made by upper and lower arms are not equal)

Verified
Mean equilibrium angular speed

Verified
Mean equilibrium speed in r.p.m

Verified
Moment of inertia of pickering governor cross-section about the neutral axis

Verified
Net increase in speed of porter governor

Verified
Power of a porter governor(if angle made by upper and lower arms are equal)

Verified
Power of a porter governor(if angle made by upper and lower arms are not equal)

Verified
Sensitiveness of the governor when angular speed in r.p.m is given

Verified
Sensitiveness of the governor when angular speed in r.p.m is given

Verified
Sensitiveness of the governor when angular speed is given

Verified
Sensitiveness of the governor when angular speed is given

Verified
Sleeve load for decrease in speed value (taking friction into account)

Verified
Sleeve load for increase in speed value (taking friction into account)

Verified
Speed of the rotation in rpm

Verified
Stiffness of each ball spring

Verified
Stiffness of the spring (Hartnell governor) when the total lift is given

Verified
Stiffness of the spring or the force required to compress the spring by one mm(Hartnell governor)

Verified
Stiffness of the spring when centrifugal force at maximum radius is known(Hartnell governor)

Verified
Stiffness of the spring when centrifugal force at minimum radius is known(Hartnell governor)

Verified
Stiffness of the spring when centrifugal force when min and max radius is known(Hartnell governor)

Verified
The centrifugal force for any intermediate position (Hartnell governor)

Verified
The centrifugal force for any intermediate position (Hartnell governor)

Verified
The relation b/w controlling force and radius of rotation for stability of governor

Verified
The relation b/w controlling force and radius of rotation for the unstability of governor

Verified
The relation between the controlling force and the radius of rotation for isochronous governors

Verified
Total downward force on the sleeve in wilson-hartnell governor

Verified
Total lift of the sleeve(Hartnell governor)

Verified
Total lift of the sleeve(Hartnell governor) when maximum and the minimum lift is known

Verified
Value of Controlling force for decrease in speed

Verified
Value of Controlling force for increase in speed

12 More Governors Calculators

Verified
Average load on spring

Verified
Axial load of spring in if deflection and stiffness of spring is given

Verified
Axial load on spring in terms of deflection of spring

Verified
Axial load on spring in terms of strain energy stored by spring

Verified
Axial load on spring in terms of work done on spring

Verified
Axial loading on spring

Verified
Axial loading on spring in terms of maximum shear stress induced in the wire

Verified
Deflection in terms of average load on spring

Verified
Deflection of spring

Verified
Deflection of spring in terms of stiffness of spring

Verified
Deflection of spring in terms of work done on spring

Verified
Diameter of spring wire in terms of deflection of spring

Verified
Diameter of spring wire in terms of maximum shear stress induced in the wire

Verified
Diameter of spring wire in terms of stiffness of helical spring

Verified
Diameter of spring wire in terms of strain energy stored by spring

Verified
Diameter of spring wire in terms of twisting moment

Verified
Maximum shear stress induced in the wire

Verified
Maximum shear stress induced in the wire in terms of twisting moment

Verified
Mean radius of spring coil

Verified
Mean radius of spring coil in terms of maximum shear stress induced in the wire

Verified
Mean radius of spring coil of helical spring in terms of stiffness of spring

Verified
Mean radius of spring roll in terms of deflection of spring

Verified
Mean radius of spring rolls in terms of strain energy stored by spring

Verified
Mean radius of spring rolls in terms of total length of wire of spring

Verified
Modulus of rigidity in terms of deflection of spring

Verified
Modulus of rigidity in terms of stiffness of helical spring

Verified
Modulus of rigidity in terms of strain energy stored by spring

Verified
Number of coils in terms of deflection of spring

Verified
Number of coils in terms of strain energy stored by spring

Verified
Number of coils in terms of total length of wire of spring

Verified
Number of coils of helical spring in terms of stiffness of spring

Verified
Stiffness of helical spring

Verified
Stiffness of spring in terms of deflection of spring

Verified
Strain energy stored by the spring

Verified
Total length of wire of helical spring

Verified
Total length of wire of helical spring in terms of mean radius of spring roll

Verified
Twisting moment in terms of maximum shear stress induced in the wire

Verified
Twisting moment on the wire of helical spring

Verified
Work done on the spring in terms of average load

Verified
Work done on the spring in terms of axial load on spring

Verified
Bending moment at center in terms of point load acting at the center of spring load

Verified
Bending moment at the center of the leaf spring

Verified
Bending moment on each plate in terms of total resisting moment by n plates

Verified
Bending moment on single plate

Verified
Central deflection of leaf spring

Verified
Central deflection of the leaf spring if modulus of elasticity is given

Verified
Load at one end in terms of bending moment at the center of the leaf spring

Verified
Maximum bending moment developed in the plate in terms of bending moment on single plate

Verified
Maximum bending moment developed in the plate in terms of total resisting moment by n plates

Verified
Maximum bending stress developed in plates in terms of point load at center

Verified
Maximum bending stress developed in terms of central deflection of the leaf spring

Verified
Maximum bending stress developed in terms of radius of the plate to which they are bent

Verified
Modulus of elasticity in terms of central deflection of the leaf spring

Verified
Modulus of elasticity in terms of radius of the plate to which they are bent

Verified
Moment of inertia of each plate

Verified
No. of plates in leaf spring in terms of total resisting moment by n plates

Verified
Number of plates in terms of maximum bending stress developed in plates

Verified
Point load acting at center of spring in terms of maximum bending stress developed in plates

Verified
Point load at center of spring load in terms of bending moment at the center of leaf spring

Verified
Radius of plate to which they are bent in terms of central deflection of leaf spring

Verified
Radius of the plate to which they are bent

Verified
Span of spring in terms of bending moment at the center of leaf spring

Verified
Span of spring in terms of bending moment at the center of leaf spring and point load at center

Verified
Span of spring in terms of central deflection of leaf spring

Verified
Span of spring in terms of central deflection of the leaf spring

Verified
Span of spring in terms of central deflection of the leaf spring

Verified
Span of spring in terms of maximum bending stress developed in plates

Verified
Thickness of each plate in terms of bending moment on single plate

Verified
Thickness of each plate in terms of Moment of inertia of each plate

Verified
Thickness of each plate in terms of total resisting moment by n plates

Verified
Thickness of plates in terms of central deflection of the leaf spring

Verified
Thickness of plates in terms of maximum bending stress developed in plates

Verified
Thickness of plates in terms of radius of the plate to which they are bent

Verified
Total resisting moment by n plates

Verified
Total resisting moment by n plates in terms of bending moment on each plate

Verified
Width of each plate in terms of bending moment on single plate

Verified
Width of each plate in terms of Moment of inertia of each plate

Verified
Width of each plate in terms of total resisting moment by n plates

Verified
Width of plates in terms of maximum bending stress developed in plates

Verified
A-phase Current using a-phase voltage(LGF)

Verified
a-phase Current Using Fault impedance (LGF)

Verified
a-phase Current Using Negative Sequence Current (LGF)

Verified
a-phase Current Using Positive Sequence Current (LGF)

Verified
a-phase Current Using Zero Sequence Current (LGF)

Verified
a-phase EMF Using Fault Impedance (LGF)

Verified
a-phase EMF Using Negative Sequence Current (LGF)

Verified
a-phase EMF Using Positive Sequence Current(LGF)

Verified
a-phase EMF Using Positive Sequence Voltage (LGF)

Verified
a-phase EMF Using Sequence Impedances(LGF)

Verified
a-phase EMF using Zero Sequence Current (LGF)

Verified
a-phase Voltage(LGF)

Verified
b-phase Current (LGF)

Verified
c-Phase Current (LGF)

Verified
Fault Impedance using a-phase current

Verified
Fault impedance using a-phase voltage(LGF)

Verified
Fault impedance Using Positive Sequence Current

Verified
Negative Sequence Current for L-G-F

Verified
Negative Sequence Current Using a-Phase Current (LGF)

Verified
Negative Sequence Current Using a-phase EMF (LGF)

Verified
Negative Sequence Impedance for L-G-F

Verified
Negative Sequence Impedance Using a-phase EMF (LGF)

Verified
Negative Sequence Voltage for L-G-F

Verified
Negative Sequence Voltage Using a-phase Current (LGF)

Verified
Negative Sequence Voltage Using Positive Sequence Current

Verified
Positive Sequence Current For L-G-F

Verified
Positive Sequence current using a-phase Current

Verified
Positive Sequence Current Using a-phase Current (LGF)

Verified
Positive Sequence Current Using a-phase EMF (LGF)

Verified
Positive Sequence Current Using Fault Impedance(LGF)

Verified
Positive Sequence Impedance for L-G-F

Verified
Positive Sequence Impedance Using a-phase EMF (LGF)

Verified
Positive Sequence Voltage For L-G-F

Verified
Positive Sequence Voltage Using a-phase Current

Verified
Positive Sequence Voltage Using Positive Sequence Current

Verified
Zero Sequence Current for L-G-F

Verified
Zero Sequence current using a-phase Current (LGF)

Verified
Zero Sequence Current Using a-phase EMF (LGF)

Verified
Zero Sequence Impedance for L-G-F

Verified
Zero Sequence Impedance Using a-phase EMF (LGF)

Verified
Zero Sequence Voltage For L-G-F

Verified
Zero Sequence Voltage Using a-phase Current (LGF)

Verified
Zero Sequence Voltage Using Positive Sequence Current

Created
Amplification factor

Created
Amplification factor of BJT

Created
Amplification factor of MOSFET

Created
Amplification factor of MOSFET in terms of device parameter

Created
Body transconductance

Created
Collector current in terms of the transconductance

Created
DC bias current of MOSFET

Created
DC bias current of MOSFET in terms of overdrive voltage

Created
DC Bias output voltage at the drain

Created
Emitter Resistance

Created
Emitter Resistance in terms of threshold voltage

Created
Emitter resistance when emitter current is given

Created
Finite resistance between drain and source

Created
Instantaneous drain current at the drain terminal

Created
Instantaneous drain current at the drain terminal when transconductance parameter is given

Created
Instantaneous drain current in terms of voltage between drain and source

Created
MOSFET transconductance

Created
MOSFET transconductance in terms of overdrive voltage

Created
MOSFET transconductance in terms of transconductance parameter

Created
Output resistance of MOSFET

Created
Output resistance of MOSFET small-signal

Created
Relation between Small-signal input resistance between base and emitter and emitter resistance

Created
Signal current in the emitter in terms of the input signal

Created
Single component of drain voltage in terms of transconductance

Created
Single component of the drain voltage

Created
Small-signal input resistance between base and emitter

Created
Small-signal input resistance between base and emitter in terms of base current

Created
Small-signal input resistance between base and emitter in terms of transconductance

Created
Small-signal input resistance in terms of emitter current

Created
Total instantaneous drain voltage

Created
Total instantaneous drain voltage in terms of drain current

Created
Total instantaneous gate-to-source voltage

Created
Transconductance in terms of collector current

Created
Transconductance in terms of collector current

Created
Transconductance in terms of drain current

Created
Transconductance in terms of overdrive voltage

Created
Transconductance in terms of process transconductance parameter in NMOS

Created
Transconductance in terms of process transconductance parameter in PMOS

Created
Transconductance in terms of the threshold voltage

Created
Transconductance when process transconductance parameter and drain current are given

Created
Transconductance when process transconductance parameter and drain current are given in PMOS

Created
Transconductance, when process transconductance parameter and overdrive voltage are given in NMOS

Created
Transconductance, when process transconductance parameter and overdrive voltage are given in PMOS

Created
Voltage gain in terms of a single component of the drain voltage

Created
Voltage gain in terms of load resistance

Created
Voltage gain in terms of the small-signal

Created
Voltage gain in terms of transconductance

Created
Voltage gain in terms of transconductance and load resistance