ALGEBRAIC-a,b,c,x,y,z(variables and constants)
variables-x,y
constants-a,b,c,p,q,r
TRIGNOMETRY(SINE,COSINE,TANGENT,COSECANT,SECANT,COTANT)-
SHORT FORM-SIN,COS,TAN,COSEC,SEC,COT)
angles-alpha,beta,theta,gamma
EXAMPLE-ANGLE-OBSERVER
OBJECT-OPPOSIT SISE(OBECT REFLECTOR)
LENGTH-ADJACENT
HYPOTENUSE-SHORTEST DISTANCE
Always angles are used for targets of uneven estiomation
missiles,projectiles,plane(military boms,binaculus,telescope,microscope of convex and concave glass angles use trignometry functions
FRACTION-1/3-
1-NUMERATOR
3 -DENOMINATOR
MULTIPLES OF FRACTION-MULTIPLY NUMERARTOR AND DENOMINATOR BY 1/1,2/2,3/3....N/N TO ADDITION ,SUBTRACTION OPERATIONS
RATIONAL -P/Q
IRRATIONAL-NUMERICAL,VARIABLES
INTEGRATION-UPPER AND LOWER BOUNDARY ADD SPACE
INTEGRATION METHODS
/integration by parts
uv rule
integration by partial differentiation
differentiation
dz/dx where z=x square=result is n*xpower( n-1)
straight lines
pair of straight lines
trignometry and inverse trignometry
differentiation
partial differentiation
variables-x,y
constants-a,b,c,p,q,r
TRIGNOMETRY(SINE,COSINE,TANGENT,COSECANT,SECANT,COTANT)-
SHORT FORM-SIN,COS,TAN,COSEC,SEC,COT)
angles-alpha,beta,theta,gamma
EXAMPLE-ANGLE-OBSERVER
OBJECT-OPPOSIT SISE(OBECT REFLECTOR)
LENGTH-ADJACENT
HYPOTENUSE-SHORTEST DISTANCE
Always angles are used for targets of uneven estiomation
missiles,projectiles,plane(military boms,binaculus,telescope,microscope of convex and concave glass angles use trignometry functions
FRACTION-1/3-
1-NUMERATOR
3 -DENOMINATOR
MULTIPLES OF FRACTION-MULTIPLY NUMERARTOR AND DENOMINATOR BY 1/1,2/2,3/3....N/N TO ADDITION ,SUBTRACTION OPERATIONS
RATIONAL -P/Q
IRRATIONAL-NUMERICAL,VARIABLES
INTEGRATION-UPPER AND LOWER BOUNDARY ADD SPACE
INTEGRATION METHODS
/integration by parts
uv rule
integration by partial differentiation
differentiation
dz/dx where z=x square=result is n*xpower( n-1)
straight lines
pair of straight lines
trignometry and inverse trignometry
differentiation
partial differentiation
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