The document provides instructions and formulas for various statistical calculations including regression analysis, distribution, sums, variance, and minimum and maximum values for data sets. It also includes formulas for calculating regression coefficients A, B, and C for linear, logarithmic, and quadratic regression models from sample data. Various statistical functions and regression analysis can be performed on a calculator.
The document contains 4 problems:
1) Calculating the isothermal work done on a gas compressed from 23L to 3L.
2) Interpolating viscosity data to find viscosity at 7.5°C.
3) Solving a system of 3 equations.
4) Approximating the solution to a differential equation.
The document describes iteratively solving a system of linear equations. It provides the initial values, performs 15 iterations of the method, and calculates the error at each step. The error decreases with each iteration, converging to a solution. It then provides a second example, performing 4 iterations on a different system of equations and calculating the error at each step, again showing convergence.
This document contains mathematical equations and calculations related to limits, derivatives, and functions. Some key details:
- It evaluates several limits as the variable approaches various values.
- It finds derivatives of functions using limit definitions.
- It solves equations related to finding maximum/minimum values and points of inflection for functions.
1. The document contains equations relating variables u, v, w, x, and expressions involving i and j.
2. Key steps show that r = 4, s = 2, and the expression for w is w = 2u - 3v.
3. Another part derives expressions for m and n in terms of another variable, finding m = 3/5, n = 2/7.
1. The document provides solutions to math problems involving sets, logic, trigonometry, vectors, and calculus.
2. Several problems are solved involving intersections of sets, logical statements, trigonometric identities, and vector operations.
3. Solutions include determining the intersection of two sets, evaluating logical statements, simplifying trigonometric expressions, and calculating the cross product of two vectors.
Solution Manual : Chapter - 06 Application of the Definite Integral in Geomet...Hareem Aslam
This document contains exercises involving calculating areas and volumes using definite integrals. There are 23 exercises finding the area under curves or between curves over given intervals using integrals, and 13 exercises finding volumes of solids of revolution using integrals. The integrals require setting up antiderivatives and evaluating between limits.
The document describes using the bisection method to find the root of two equations. For the first equation f(t)=10et/2cos2t-4, the method is iterated 9 times until the error is less than 1%. For the second equation f(x)=e-x-lnx, the method is iterated 6 times until the error is less than 1%. The bisection method progressively narrows the range between initial values of a and b to converge on the root for each equation.
The document provides instructions and formulas for various statistical calculations including regression analysis, distribution, sums, variance, and minimum and maximum values for data sets. It also includes formulas for calculating regression coefficients A, B, and C for linear, logarithmic, and quadratic regression models from sample data. Various statistical functions and regression analysis can be performed on a calculator.
The document contains 4 problems:
1) Calculating the isothermal work done on a gas compressed from 23L to 3L.
2) Interpolating viscosity data to find viscosity at 7.5°C.
3) Solving a system of 3 equations.
4) Approximating the solution to a differential equation.
The document describes iteratively solving a system of linear equations. It provides the initial values, performs 15 iterations of the method, and calculates the error at each step. The error decreases with each iteration, converging to a solution. It then provides a second example, performing 4 iterations on a different system of equations and calculating the error at each step, again showing convergence.
This document contains mathematical equations and calculations related to limits, derivatives, and functions. Some key details:
- It evaluates several limits as the variable approaches various values.
- It finds derivatives of functions using limit definitions.
- It solves equations related to finding maximum/minimum values and points of inflection for functions.
1. The document contains equations relating variables u, v, w, x, and expressions involving i and j.
2. Key steps show that r = 4, s = 2, and the expression for w is w = 2u - 3v.
3. Another part derives expressions for m and n in terms of another variable, finding m = 3/5, n = 2/7.
1. The document provides solutions to math problems involving sets, logic, trigonometry, vectors, and calculus.
2. Several problems are solved involving intersections of sets, logical statements, trigonometric identities, and vector operations.
3. Solutions include determining the intersection of two sets, evaluating logical statements, simplifying trigonometric expressions, and calculating the cross product of two vectors.
Solution Manual : Chapter - 06 Application of the Definite Integral in Geomet...Hareem Aslam
This document contains exercises involving calculating areas and volumes using definite integrals. There are 23 exercises finding the area under curves or between curves over given intervals using integrals, and 13 exercises finding volumes of solids of revolution using integrals. The integrals require setting up antiderivatives and evaluating between limits.
The document describes using the bisection method to find the root of two equations. For the first equation f(t)=10et/2cos2t-4, the method is iterated 9 times until the error is less than 1%. For the second equation f(x)=e-x-lnx, the method is iterated 6 times until the error is less than 1%. The bisection method progressively narrows the range between initial values of a and b to converge on the root for each equation.
The document contains solutions to several math problems:
1) It solves a system of two equations for variables x and y, finding the solution to be x=15 and y=20.
2) It evaluates two functions f(x) and g(x) at given values, finding f(2)=8 and g(-1)=2.
3) It solves an inequality for the variable x, finding the solution to be x<1/6.
IIT-JEE Mains 2017 Online Mathematics Previous Paper Day 1Eneutron
1. The document contains 14 multiple choice mathematics questions covering topics such as quadratic equations, complex numbers, matrices, integrals, trigonometric functions, and series.
2. The questions require applying mathematical concepts and formulas to solve for unknown variables or determine relationships between given quantities.
3. Multiple choice options are provided for the answer to each question.
This document summarizes the exercises and solutions for Unit 1 of an algebra linear course. It includes exercises on vectors in 2D and 3D space, including calculating angles between vectors, adding vectors, and taking cross products. Matrix exercises are also presented, such as finding the transpose and inverse of matrices. Determinants are calculated to find the inverse of a matrix. The exercises are to help conceptualize vectors, matrices, and determinants as covered in Unit 1.
The document discusses equations for open channel flow and methods to calculate parameters for different channel cross section shapes including trapezoidal, circular, parabolic, and natural channels. It provides equations for area, perimeter, and their derivatives with respect to depth (y) for each cross section shape. Methods using the Newton-Raphson technique are presented to calculate the normal depth (y) given inputs of discharge (q), channel properties, slope and Manning's roughness coefficient. Outputs from the methods include normal depth, area, wetted perimeter, hydraulic radius, mean depth, mean velocity, energy, Froude number and more. Python code implementing the Newton-Raphson method for each cross section shape is also presented.
This document contains a series of mathematics problems and their step-by-step solutions involving algebra, equations, logarithms, and trigonometry. The problems cover topics such as solving equations, evaluating logarithmic and trigonometric expressions, finding values that satisfy equations, solving systems of equations, and more. The document is written in Spanish and provides fully worked out solutions for each problem presented.
1. The document presents an exercise set involving the integration and differentiation of various functions. It contains problems involving the calculation of areas under curves, derivatives, integrals, and finding functions given their derivatives or known points.
2. The exercise set contains over 40 problems involving concepts like derivatives, integrals, areas under curves, finding functions from known derivatives or points, and applying integration techniques to solve problems across different domains.
3. The problems progress from simpler integrals and derivatives to more complex problems integrating and differentiating composite functions, trigonometric functions, and applying integration to find functions and solve applied problems.
This document contains 12 math problems involving algebra concepts like solving equations, logarithms, trigonometry, and geometry. The problems cover topics such as solving systems of equations, evaluating logarithmic and trigonometric expressions, finding slopes of lines, and more. Detailed step-by-step workings are shown for each problem.
The document summarizes concepts related to forces and motion. It defines key terms like work, kinetic energy, and potential energy. It provides formulas for calculating work, kinetic energy, and gravitational potential energy. Examples are given to demonstrate applying the concepts and formulas to solve physics problems involving changes in kinetic and potential energy.
This document contains 40 math problems solved using MATLAB code. Each problem includes the code used to solve the problem and the output displayed in the command window. The problems cover a range of mathematical topics including algebra, trigonometry, calculus, and statistics.
This document contains exercises involving functions and graphs. There are multiple choice and free response questions testing understanding of properties of functions including domain, range, intercepts, maxima/minima, and graphing functions. Solutions are provided for checking work.
The document provides exercises on calculating derivatives using various rules including the sum and difference rule, product rule, and quotient rule. It includes 15 problems calculating derivatives of given functions and finding numerical derivatives at given values. The answers provide the step-by-step work to arrive at the derivatives using the appropriate rules.
1. The document provides 9 math problems involving equations, inequalities, functions, and geometry.
2. Problem 5 finds the direction cosines of line OC given points A, B, and O.
3. Problem 16 involves a geometry problem about angles A, B, and C of triangle ABC and uses trigonometric identities to find the value of cos C.
Changes to Mathematics Programs at Franklin CollegeRobert Talbert
Presentation detailing the new, improved mathematics offerings at Franklin College.
A 32-minute movie of this presentation is available at http://blip.tv/file/1748299/ .
Simplify a Clique Problem Boolean algebra by factorization. Show that Clique Problem is Non-Deterministic Polynomial Time (NP) and cannot be simplified to Polynomial Time (P). Kung Fu Computer Science, Geometric complexity theory
This document contains 27 solved math problems involving vectors and matrices. The problems demonstrate various vector and matrix operations like addition, subtraction, multiplication, and dot products. They also show how to plot functions and find maximum values. The problems are solved using MATLAB code and the results are displayed in the command window.
1. The document contains examples of addition, subtraction, multiplication, and division of algebraic expressions. It also includes exercises on order of operations and evaluating algebraic expressions given values of variables.
2. The exercises involve combining like terms, distributing multiplication over addition/subtraction, factoring, and simplifying rational expressions.
3. The goal is to teach students the basic algebraic operations and how to manipulate algebraic expressions through step-by-step workings.
1. The document contains 33 solved math and programming problems involving MATLAB code and output.
2. Various problems demonstrate operations on vectors and matrices like indexing, transposing, reshaping and assigning values.
3. Examples show how to create and manipulate arrays, perform basic math operations, and plot functions in MATLAB.
This document provides information about calculator models and functions. It begins with a list of calculator models, followed by examples of math expressions and their equivalent forms on different lines. The remainder of the document contains examples of calculations and statistical functions performed on a calculator.
1. The document contains 14 multi-part mathematics questions involving sequences and series.
2. Many questions involve finding the common ratio (r), first term (a), or sum (Sn) of sequences that satisfy given properties or equations relating to arithmetic and geometric progressions.
3. Proofs are provided that certain expressions are arithmetic or geometric progressions, or that certain series representations are valid.
1. The determinants of matrices A, B, and C are calculated. The determinant of ABC is equal to the determinant of CBA.
2. The determinant of the matrix AB is calculated. When the dimensions of A and B are multiplied, the determinant is the product of the determinants.
3. A system of linear equations is solved using determinants and Cramer's rule. The solutions are found to be x=0, y=1, z=2.
This document provides examples of calculating the Laplace transform of various functions. It begins with 14 examples of taking the Laplace transform of functions like 2sen t + 3 cos t, t^2e^4t, and e^-2t sen t. It then provides 10 examples of taking the inverse Laplace transform of functions like 1/(s(s+1)), 25/(s^2+1)^2, and 1/(s^2-4s+5). Finally, it concludes with 3 additional examples of calculating the inverse Laplace transform.
1. The document provides solutions to math problems involving sets, logic, trigonometry, vectors, and calculus.
2. It gives step-by-step workings and explanations for solving equations derived from geometric and algebraic expressions.
3. The problems cover a wide range of mathematical concepts and the document shows the thought process and reasoning for arriving at the answers.
The document contains solutions to several math problems:
1) It solves a system of two equations for variables x and y, finding the solution to be x=15 and y=20.
2) It evaluates two functions f(x) and g(x) at given values, finding f(2)=8 and g(-1)=2.
3) It solves an inequality for the variable x, finding the solution to be x<1/6.
IIT-JEE Mains 2017 Online Mathematics Previous Paper Day 1Eneutron
1. The document contains 14 multiple choice mathematics questions covering topics such as quadratic equations, complex numbers, matrices, integrals, trigonometric functions, and series.
2. The questions require applying mathematical concepts and formulas to solve for unknown variables or determine relationships between given quantities.
3. Multiple choice options are provided for the answer to each question.
This document summarizes the exercises and solutions for Unit 1 of an algebra linear course. It includes exercises on vectors in 2D and 3D space, including calculating angles between vectors, adding vectors, and taking cross products. Matrix exercises are also presented, such as finding the transpose and inverse of matrices. Determinants are calculated to find the inverse of a matrix. The exercises are to help conceptualize vectors, matrices, and determinants as covered in Unit 1.
The document discusses equations for open channel flow and methods to calculate parameters for different channel cross section shapes including trapezoidal, circular, parabolic, and natural channels. It provides equations for area, perimeter, and their derivatives with respect to depth (y) for each cross section shape. Methods using the Newton-Raphson technique are presented to calculate the normal depth (y) given inputs of discharge (q), channel properties, slope and Manning's roughness coefficient. Outputs from the methods include normal depth, area, wetted perimeter, hydraulic radius, mean depth, mean velocity, energy, Froude number and more. Python code implementing the Newton-Raphson method for each cross section shape is also presented.
This document contains a series of mathematics problems and their step-by-step solutions involving algebra, equations, logarithms, and trigonometry. The problems cover topics such as solving equations, evaluating logarithmic and trigonometric expressions, finding values that satisfy equations, solving systems of equations, and more. The document is written in Spanish and provides fully worked out solutions for each problem presented.
1. The document presents an exercise set involving the integration and differentiation of various functions. It contains problems involving the calculation of areas under curves, derivatives, integrals, and finding functions given their derivatives or known points.
2. The exercise set contains over 40 problems involving concepts like derivatives, integrals, areas under curves, finding functions from known derivatives or points, and applying integration techniques to solve problems across different domains.
3. The problems progress from simpler integrals and derivatives to more complex problems integrating and differentiating composite functions, trigonometric functions, and applying integration to find functions and solve applied problems.
This document contains 12 math problems involving algebra concepts like solving equations, logarithms, trigonometry, and geometry. The problems cover topics such as solving systems of equations, evaluating logarithmic and trigonometric expressions, finding slopes of lines, and more. Detailed step-by-step workings are shown for each problem.
The document summarizes concepts related to forces and motion. It defines key terms like work, kinetic energy, and potential energy. It provides formulas for calculating work, kinetic energy, and gravitational potential energy. Examples are given to demonstrate applying the concepts and formulas to solve physics problems involving changes in kinetic and potential energy.
This document contains 40 math problems solved using MATLAB code. Each problem includes the code used to solve the problem and the output displayed in the command window. The problems cover a range of mathematical topics including algebra, trigonometry, calculus, and statistics.
This document contains exercises involving functions and graphs. There are multiple choice and free response questions testing understanding of properties of functions including domain, range, intercepts, maxima/minima, and graphing functions. Solutions are provided for checking work.
The document provides exercises on calculating derivatives using various rules including the sum and difference rule, product rule, and quotient rule. It includes 15 problems calculating derivatives of given functions and finding numerical derivatives at given values. The answers provide the step-by-step work to arrive at the derivatives using the appropriate rules.
1. The document provides 9 math problems involving equations, inequalities, functions, and geometry.
2. Problem 5 finds the direction cosines of line OC given points A, B, and O.
3. Problem 16 involves a geometry problem about angles A, B, and C of triangle ABC and uses trigonometric identities to find the value of cos C.
Changes to Mathematics Programs at Franklin CollegeRobert Talbert
Presentation detailing the new, improved mathematics offerings at Franklin College.
A 32-minute movie of this presentation is available at http://blip.tv/file/1748299/ .
Simplify a Clique Problem Boolean algebra by factorization. Show that Clique Problem is Non-Deterministic Polynomial Time (NP) and cannot be simplified to Polynomial Time (P). Kung Fu Computer Science, Geometric complexity theory
This document contains 27 solved math problems involving vectors and matrices. The problems demonstrate various vector and matrix operations like addition, subtraction, multiplication, and dot products. They also show how to plot functions and find maximum values. The problems are solved using MATLAB code and the results are displayed in the command window.
1. The document contains examples of addition, subtraction, multiplication, and division of algebraic expressions. It also includes exercises on order of operations and evaluating algebraic expressions given values of variables.
2. The exercises involve combining like terms, distributing multiplication over addition/subtraction, factoring, and simplifying rational expressions.
3. The goal is to teach students the basic algebraic operations and how to manipulate algebraic expressions through step-by-step workings.
1. The document contains 33 solved math and programming problems involving MATLAB code and output.
2. Various problems demonstrate operations on vectors and matrices like indexing, transposing, reshaping and assigning values.
3. Examples show how to create and manipulate arrays, perform basic math operations, and plot functions in MATLAB.
This document provides information about calculator models and functions. It begins with a list of calculator models, followed by examples of math expressions and their equivalent forms on different lines. The remainder of the document contains examples of calculations and statistical functions performed on a calculator.
1. The document contains 14 multi-part mathematics questions involving sequences and series.
2. Many questions involve finding the common ratio (r), first term (a), or sum (Sn) of sequences that satisfy given properties or equations relating to arithmetic and geometric progressions.
3. Proofs are provided that certain expressions are arithmetic or geometric progressions, or that certain series representations are valid.
1. The determinants of matrices A, B, and C are calculated. The determinant of ABC is equal to the determinant of CBA.
2. The determinant of the matrix AB is calculated. When the dimensions of A and B are multiplied, the determinant is the product of the determinants.
3. A system of linear equations is solved using determinants and Cramer's rule. The solutions are found to be x=0, y=1, z=2.
This document provides examples of calculating the Laplace transform of various functions. It begins with 14 examples of taking the Laplace transform of functions like 2sen t + 3 cos t, t^2e^4t, and e^-2t sen t. It then provides 10 examples of taking the inverse Laplace transform of functions like 1/(s(s+1)), 25/(s^2+1)^2, and 1/(s^2-4s+5). Finally, it concludes with 3 additional examples of calculating the inverse Laplace transform.
1. The document provides solutions to math problems involving sets, logic, trigonometry, vectors, and calculus.
2. It gives step-by-step workings and explanations for solving equations derived from geometric and algebraic expressions.
3. The problems cover a wide range of mathematical concepts and the document shows the thought process and reasoning for arriving at the answers.
1. The document provides 9 math problems involving equations, inequalities, functions, and geometry.
2. Problem 5 finds the direction cosines of line OC given points A, B, and O.
3. Problem 16 involves a cosine identity relating the angles of a triangle. It is shown that the cosine of the third angle C is 1/5.
The document provides instructions on order of operations for mathematical expressions and a series of math problems involving combinations of addition, subtraction, multiplication, division, exponents, parentheses, and integers. The problems cover simplifying expressions by following the proper order of operations, which is to perform operations inside parentheses first, then exponents and multiplication/division from left to right, and finally addition and subtraction from left to right.
This method, Newton raphson helps to approximate the root of a non linear equation.
The presentation also tells about the Advantages and disadvantages of the method.
This document discusses various measures of dispersion used to quantify the spread or variability in data. It defines absolute and relative measures of dispersion and describes key measures such as range, interquartile range, mean deviation, standard deviation, and coefficient of variation. Examples are provided to demonstrate calculating these measures from data sets. The standard deviation is identified as the most common measure of dispersion and its properties are outlined.
Here are the key steps to solve this problem:
1. Calculate the coefficient of variation for each factory:
Factory A:
Coefficient of variation = Standard deviation/Average
= 6.5/19.7 = 33%
Factory B:
Coefficient of variation = Standard deviation/Average
= 8.64/21 = 41%
2. The factory with the lower coefficient of variation has more consistent profits.
Factory A has a coefficient of variation of 33%, lower than Factory B's 41%. Therefore, the profits of Factory A are more consistent.
The coefficient of variation allows us to compare the extent of variability in relation to the average of the data set. A lower coefficient
The document provides information on the marking scheme for a trial SPM 2017 mathematics additional paper 2 examination in Selangor, Malaysia. It lists several multi-step math problems and their solutions, showing the working and marks allocated for each step. It also includes diagrams with geometry problems involving lines, angles and shapes. The last few questions cover calculus topics like integration and maximum/minimum values. Overall, the document outlines the detailed marking rubric for a high school level math exam, exemplifying the types of problems asked and breakdown of marks for partial and full solutions.
This document provides information about a PGDM student from the batch of 2012-2014 studying Marketing as their major and Finance as their minor. It includes their social media links and discusses various statistical measures of dispersion such as range, interquartile range, mean deviation, standard deviation, and their properties and calculations. It also discusses how to calculate and compare standard deviation and coefficient of variation between data sets to determine which has more consistent values.
This document contains solutions to problems from algebra workbooks. The first problem solved factorizes the expression x^2 + 7x + 6 as (x + 6)(x + 1). The second problem factorizes the expression x^2y - 5xy - 6y as y(x - 6)(x + 1) using the method of factoring by grouping. The key factors identified in the problems are prime numbers 2 and 3.
- The code defines a class called PrintLoops that inherits from IRVisitor. It overrides the visit method to print the name of any For nodes visited.
- A print_loops function takes a statement and uses a PrintLoops visitor to print the name of all for loops in the statement.
−3
3
−2
3
3
+ + ( −3) 2 ⋅ − + ( −3) −3
3 6
2
Se
1) The document contains 8 math expressions to solve. It provides the solutions and steps to solving each one. 2) The expressions involve fractions, exponents, addition, subtraction, multiplication, and division. 3) The solutions simplify the expressions and calculate the final numeric value or fraction.
This document discusses various measures of dispersion including range, interquartile range, quartile deviation, mean deviation, and standard deviation. It provides formulas and procedures for calculating each measure along with examples of calculating dispersion measures from data sets. Key measures discussed include range, interquartile range, quartile deviation, mean deviation, and standard deviation. Procedures are outlined for determining class intervals and cumulative frequencies needed to calculate certain dispersion measures.
Joseph stalin national hero or cold blooded murderer- - bbc teachtapanma
Joseph is born in Georgia in the late 19th century to an alcoholic father and washerwoman mother. As a young boy, he shows interest in astronomy and spends much of his time exploring the night sky. Despite facing poverty and racism, Joseph works hard in school and goes on to attend college, eventually landing a job at the Meteorological Observatory where he is able to further his scientific studies.
Lógica proposicional
41 Teoría de conjuntos
"l"I Numeración
10"1 Operaciones básicas en el conjunto Z~
111 Sucesiones
111 Teoría de la divisibilidad
111 Estudio de los divisores positivos
de un número
111 Máximo común divisor (MCD)
Mínimo común múltiplo (MCM)
111 Potenciación y radicación en z+
Antes de usar la calculadora por primera vez, asegúrese de
presionar la tecla O.
• Cambie la pila por lo menos una vez cada dos años, aun si la
calculadora continúa operando normalmente.
Una pila agotada puede tener fugas del electrólito, ocasionando
daños y fallas de funcionamiento de la calculadora. No deje una
pila agotada en la calculadora.
• La pila que viene con esta unidad se descarga ligeramente
durante el envío y almacenamiento. Debido a esto, puede
requerir un reemplazo más temprano que la duración de pila
esperada normalmente.
• Una alimentación de pila baja puede ocasionar que los
contenidos de la memoria se alteren o se pierdan
completamente. Guarde siempre registros escritos de todos
sus datos importantes.
• Evite usar y almacenar la calculadora en áreas sujetas a
temperaturas extremas.
Temperaturas muy bajas pueden ocasionar una respuesta lenta
de la presentación, falla total de la presentación y acortamiento
de la duración de la pila. También evite dejar la calculadora a la
luz directa del sol, cerca de una ventana, cerca de una estufa o en
cualquier lugar que pueda quedar expuesto a temperaturas muy
altas. El calor puede ocasionar descoloración o deformación de
la caja de la calculadora, y daños al circuito interno.
• Evite usar y almacenar la calculadora en áreas sujetas a
excesiva cantidad de humedad y polvo.
Tenga cuidado de no dejar la calculadora en donde podría ser
salpicada por agua o expuesta a mucha humedad y polvo. Tales
condiciones pueden dañar los circuitos internos.
• No la deje caer la calculadora ni la someta a fuertes impactos.
• No doble ni tuerza la calculadora.
Evite llevar la calculadora en el bolsillo de sus pantalones u otra
ropa ajustada en donde pueda estar sujeta a torceduras o
dobladuras.
• No trate de desarmar la calculadora.
• No presione las teclas de la calculadora con un bolígrafo ni
con ningún otro objeto puntiagudo.
• Utilice un paño suave o seco para limpiar el exterior de la
unidad.
Si la calculadora se ensucia, limpie con un paño humedecido en
una solución diluida de agua y detergente de uso hogareño neutro
suave. Exprima quitando todo exceso de la solución antes de
limpiar la calculadora. No utilice diluyentes, bencina ni otros
agentes volátiles para limpiar la calculadora. Haciéndolo puede
quitar las marcas impresas y puede dañar la caja.
Este documento convoca a los interesados en ingresar a programas de ingeniería en la Universidad Autónoma de Guerrero a realizar los trámites de registro para el concurso de selección del ciclo escolar 2014-2015, el cual incluye requisitos como certificado de estudios de bachillerato con promedio mínimo de 8.0, acta de nacimiento, CURP y examen CENEVAL que se aplicará el 28 de junio. La lista de aceptados se publicará el 11 de julio.
Este documento descreve as etapas para se preparar um bolo de chocolate. Ele lista os ingredientes necessários e fornece instruções detalhadas para misturar, assar e decorar o bolo.
Diccionario de matematicas editorial normaRaul Ibañez
Este documento presenta un diccionario de matemáticas. Contiene definiciones concisas de más de 1500 términos matemáticos seleccionados de diversos programas escolares, con ilustraciones claras cuando sean útiles. El diccionario está destinado al uso de estudiantes de matemáticas elementales y superiores hasta un nivel medio, y también puede ser útil para otros estudiantes de ciencias afines.
Lecciones sobre ecuaciones en DERIVADAS PARCIALES l. G. PETROVSKIRaul Ibañez
Este documento es un libro sobre ecuaciones en derivadas parciales escrito por L. G. Petrovski. Contiene 43 secciones organizadas en 4 capítulos que cubren temas como ecuaciones hiperbólicas, elípticas y parabólicas. Incluye prólogos, índices y tratamientos matemáticos detallados de problemas como el problema de Cauchy y vibraciones de cuerpos finitos para diferentes tipos de ecuaciones.
Este documento presenta la guía del usuario para la calculadora gráfica HP Prime. Explica las funciones básicas de la calculadora como la navegación, entrada de datos, cálculos matemáticos y el uso de aplicaciones. También cubre temas avanzados como programación, variables y unidades. La guía proporciona instrucciones detalladas para el uso de la potente funcionalidad de la HP Prime.
Este documento presenta un resumen de tres capítulos sobre cálculo diferencial e integral de funciones de una variable. El documento introduce los conceptos básicos de números reales, funciones elementales, números complejos y funciones continuas. Explica temas como los axiomas de los números reales, funciones polinómicas, trigonométricas y exponenciales, operaciones con números complejos, y las propiedades de continuidad y límites funcionales. El documento proporciona definiciones, teoremas, ejemplos y ejercicios para cada uno
resolucion de ecuaciones diferenciales con MATLAB Raul Ibañez
Este documento describe varios métodos para resolver numéricamente ecuaciones diferenciales en Mathcad y Matlab. En Mathcad, se pueden resolver ecuaciones diferenciales ordinarias y de derivadas parciales utilizando funciones como odesolve, rkfixed, Bulstoer, y relax. En Matlab, se pueden resolver ecuaciones diferenciales ordinarias simbólicamente con dsolve o numéricamente con resolutores como ode45, ode15s, ode23s. Ambos programas ofrecen opciones para resolver sistemas de ecuaciones diferenciales y ecuaciones stiff.
6.1 Otro repaso al movimiento recti lineo
6.2 Otro repaso al area
6.3 Volumenes de s6lidos: metoda de las rebanadas
6.4 Vo lumenes de s6lidos: metoda de los cascarones
6.5 Longitud de una gratica
6.6 Area de una superficie de revoluci6n
6.7 Valor promedio de una funci6n
6.8 Trabajo
6.9 Presi6n y fuerza del fluido
6.10 Centros de masa y centroides
Revisi6n del capitu lo 6
321
El documento promueve un blog llamado "Profesor10demates" que ofrece recursos gratuitos como PDF para ayudar a aprobar matemáticas, física y química. El blog incluye ejercicios para aprender las reglas de derivación, con 13 secciones que cubren temas como polinomios, logaritmos, trigonométricas y propiedades. Los usuarios pueden acceder a las soluciones haciendo clic en cada derivada.
Este documento presenta un libro de texto sobre precálculo destinado a estudiantes de ciencias biológicas. Explica conceptos básicos de conjuntos y números reales, álgebra elemental, funciones polinomiales, racionales, exponenciales, logarítmicas y trigonométricas, con ejemplos relevantes para las ciencias de la vida. El libro fue escrito por profesores de matemáticas de la UAM-IZTAPALAPA para cubrir el material necesario para los estudiantes de biociencias de su institución de una manera
Cuando practicas un deporte y quieres llegar a destacar en él, entrenas constantemente
para llegar a ser el mejor. Por ejemplo, para jugar bien al fútbol, es importante saber recibir el
balón, dar pases correctamente y anotar goles.
Con las matemáticas ocurre algo muy similar: para poder resolver problemas, algo que te
puede ayudar de manera significativa es seguir el proceso de matematización, que consiste
de cinco pasos sencillos:
1. Identificar un problema de tu entorno que pueda ser tratado como un problema
matemático, desde situaciones sencillas, como por ejemplo, medir un objeto, ver
cuánto cabe en él, hasta saber calcular el precio de un producto si se aplica un
porcentaje de descuento.
2. Identificar el conocimiento matemático necesario para resolver el problema,
comenzando por leer bien el problema para comprender de qué o de quién se habla y
saber qué operaciones necesitas hacer para resolverlo.
3. Formular un modelo matemático que represente el problema, que pueden ser
dibujos, barras, gráficas, fórmulas, etc., en donde se ilustre la información obtenida del
problema.
4. Resolver el problema utilizando fórmulas, procedimientos o métodos que ya
conoces y que te pueden ayudar a dar solución, planteando varias estrategias
diferentes para resolverlo.
5. Interpretar la solución del problema en tu vida cotidiana escribiendo la respuesta
siempre como una oración completa donde expreses el resultado obtenido, para que
cualquier persona que lo vea lo pueda entender claramente.
Ajuste y reparación de motores a gasolinaRaul Ibañez
El documento describe un libro sobre el ajuste y reparación de motores a gasolina para bachilleratos y escuelas tecnológicas. El libro incluye información sobre los mecanismos del motor como el pistón-biela y leva-válvula, así como elementos de los mecanismos, mecanismos complejos, ensambles y pasos para la reparación del motor.
Este documento resume un libro de salsas mexicanas. Explica que las salsas son una parte fundamental de la cultura culinaria y religiosa de México desde tiempos antiguos. Describe la variedad de chiles usados en las salsas y cómo reflejan la identidad de diferentes regiones de México. Resalta que las salsas capturan la esencia de México a través de los ingredientes picantes y verduras que reflejan la bravura del pueblo mexicano.
Este manual describe el procedimiento para operar una estación total. Explica que primero se debe seleccionar y marcar un punto de control topográfico, luego montar e instalar el instrumento en el trípode y nivelarlo. Detalla las partes de la estación total y sus accesorios, y guía al usuario paso a paso en cómo realizar un levantamiento topográfico, incluyendo la orientación, medición de puntos y cálculo de coordenadas.
বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
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Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
Main Java[All of the Base Concepts}.docxadhitya5119
This is part 1 of my Java Learning Journey. This Contains Custom methods, classes, constructors, packages, multithreading , try- catch block, finally block and more.
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
The event will cover the following::
Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
Special TechSoup offer for a free 180 days membership, and up to $150 in discounts on eligible orders.
Spark Good (walmart.com/sparkgood) is a charitable platform that enables nonprofits to receive donations directly from customers and associates.
Answers about how you can do more with Walmart!"
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
10. –9–
#025 e10 = 22026.46579
1i(e^)10=
#026
1.2 × 103 = 1200
1.2*
Math
1l($)3=
(1 + 1)2+2 = 16
(1+1)62+2
Math
=
#027
(52)
3
= 15625
(5w)
Math
1w(x3
)=
('2 + 1) ('2 – 1) = 1
(!2)+1)
(!2)-1)=
5 32 = 2
516(")32)=
#028 (–2) = 1.587401052
(y2)6
2'3)=
MATH
LINE
MATH
LINE
LINE
2
3
11. –10–
#029 3'5 + 3 –27 = –1.290024053
1!(#)5)+
1!(#)y27)=
#030
(3E-4E)E=
#031
7iS)(X))
Math
c1fS5(e)=
7iS)(X))
1)(,)11)(,)
S5(e))=
#032
71/S)(X)w
1)(,)11)(,)5
1)(,)15y7)=
#033
17(F)s
Math
S)(X))e'
15(π)c2=
17(F)s
S)(X))1)(,)
15(π)'2)=
LINE
LINE
MATH
LINE
Rad
LINE
MATH
LINE
1
= 12
1
3
1
4
–
20. –19–
#060
A =
n
Σy – B.Σx
o Σx
n=
m
y – A
B
=
xσn
n
= Σ (x – o)2
xσn –1
n – 1
= Σ (x – o)2
p
Σy
n=
yσn
n
= Σ (y – p)2
yσn –1
n – 1
= Σ (y – p)2
B =
n.Σx2
– (Σx)2
n.Σxy – Σx.Σy
r =
{n.Σx2
– (Σx)2
}{n.Σy2
– (Σy)2
}
n.Σxy – Σx.Σy
n = A + Bx
25. –24–
11(STAT)7(Reg)
STAT
3(C)=
#068
y = 3 → m1 = ?
311(STAT)7(Reg)
STAT
4(m1)=
y = 3 → m2 = ?
311(STAT)7(Reg)
STAT
5(m2)=
x = 2 → n = ?
211(STAT)7(Reg)
STAT
6(n)=
#069
A =
n
Σy – B.Σlnx
B =
n.Σ(lnx)2
– (Σlnx)2
n.Σ(lnx)y – Σlnx.Σy
r =
{n.Σ(lnx)2
– (Σlnx)2
}{n.Σy2
– (Σy)2
}
n.Σ(lnx)y – Σlnx.Σy
n = A + Blnx
m = e
y – A
B
26. –25–
#070
#071
A = exp( )n
Σlny – B.Σx
B =
n.Σx2
– (Σx)2
n.Σxlny – Σx.Σlny
r =
{n.Σx2
– (Σx)2
}{n.Σ(lny)2
– (Σlny)2
}
n.Σxlny – Σx.Σlny
m =
B
lny – lnA
n = AeBx
A = exp( )n
Σlny – B.Σx
B = exp( )n.Σx2
– (Σx)2
n.Σxlny – Σx.Σlny
r =
{n.Σx2
– (Σx)2
}{n.Σ(lny)2
– (Σlny)2
}
n.Σxlny – Σx.Σlny
m =
lnB
lny – lnA
n = ABx
27. –26–
#072
#073
A = exp( )n
Σlny – B.Σlnx
B =
n.Σ(lnx)2
– (Σlnx)2
n.Σlnxlny – Σlnx.Σlny
r =
{n.Σ(lnx)2
– (Σlnx)2
}{n.Σ(lny)2
– (Σlny)2
}
n.Σlnxlny – Σlnx.Σlny
m = e B
ln y – ln A
n = AxB
A =
n
Σy – B.Σx–1
B =
Sxx
Sxy
r =
Sxx = Σ(x–1
)2
–
Syy = Σy2
–
Sxy = Σ(x–1
)y –
Sxx.Syy
Sxy
n
(Σx–1
)2
n
Σx–1.Σy
m =
y – A
B
n = A +
x
B
n
(Σy)2
29. –28–
#075 y = A + Blnx
1Nc4(STAT)2(OFF)
N3(STAT)4(ln X)
29= 50= 74=
STAT
103= 118=
ce1.6=
23.5=
STAT
38= 46.4=
48.9=
A11(STAT)7(Reg)
STAT
1(A)=
11(STAT)7(Reg)
STAT
2(B)=
11(STAT)7(Reg)
STAT
3(r)=
x = 80 → n = ?
8011(STAT)7(Reg)
STAT
5(n)=
y = 73 → m = ?
7311(STAT)7(Reg)
STAT
4(m)=
x y
29 1.6
50 23.5
74 38.0
103 46.4
118 48.9
30. –29–
#076 y = AeBx
1Nc4(STAT)2(OFF)
N3(STAT)5(e^X)
6.9= 12.9=
19.8=
STAT
26.7=
35.1=
ce21.4=
15.7=
STAT
12.1= 8.5=
5.2=
A11(STAT)7(Reg)
STAT
1(A)=
11(STAT)7(Reg)
STAT
2(B)=
11(STAT)7(Reg)
STAT
3(r)=
x = 16 → n = ?
1611(STAT)7(Reg)
STAT
5(n)=
y = 20 → m = ?
2011(STAT)7(Reg)
STAT
4(m)=
x y
6.9 21.4
12.9 15.7
19.8 12.1
26.7 8.5
35.1 5.2
31. –30–
#077 y = ABx
1Nc4(STAT)2(OFF)
N3(STAT)6(A•B^X)
y1= 3= 5=
STAT
10=
ce0.24= 4=
STAT
16.2= 513=
A11(STAT)7(Reg)
STAT
1(A)=
11(STAT)7(Reg)
STAT
2(B)=
11(STAT)7(Reg)
STAT
3(r)=
x = 15 → n = ?
1511(STAT)7(Reg)
STAT
5(n)=
y = 1.02 → m = ?
1.0211(STAT)
STAT
7(Reg)4(m)=
x y
–1 0.24
3 4
5 16.2
10 513
32. –31–
#078 y = AxB
1Nc4(STAT)2(OFF)
N3(STAT)7(A•X^B)
28= 30= 33=
STAT
35= 38=
ce2410=
3033=
3895=
STAT
4491=
5717=
A11(STAT)7(Reg)
STAT
1(A)=
11(STAT)7(Reg)
STAT
2(B)=
11(STAT)7(Reg)
STAT
3(r)=
x = 40 → n = ?
4011(STAT)7(Reg)
STAT
5(n)=
y = 1000 → m = ?
100011(STAT)
STAT
7(Reg)4(m)=
x y
28 2410
30 3033
33 3895
35 4491
38 5717
33. –32–
#079 y = A + B
x
1Nc4(STAT)2(OFF)
N3(STAT)8(1/X)
1.1= 2.1=
STAT
2.9= 4=
4.9=
ce18.3=
9.7= 6.8=
STAT
4.9= 4.1=
A11(STAT)7(Reg)
STAT
1(A)=
11(STAT)7(Reg)
STAT
2(B)=
11(STAT)7(Reg)
STAT
3(r)=
x = 3.5 → n = ?
3.511(STAT)
STAT
7(Reg)5(n)=
y = 15 → m = ?
1511(STAT)7(Reg)
STAT
4(m)=
x y
1.1 18.3
2.1 9.7
2.9 6.8
4.0 4.9
4.9 4.1
36. –35–
#090 Neg (1011012) = 11111111110100112
13(BASE)6(Neg)
101101)=
#091 X + 2Y = 3
2X + 3Y = 4
N5(EQN)
1(anX+bnY=cn)
Math
1= 2= 3=
Math
2= 3= 4=
=
Math
c
Math
#092 X2 + 2X + 3 = 0
N5(EQN)
3(aX2
+bX+c=0)
Math
MATH
MATH
37. –36–
1= 2= 3=
Math
=
Math
=
Math
#093
X – Y + Z = 2
X + Y – Z = 0
–X + Y + Z = 4
N5(EQN)
2(anX+bnY+cnZ=dn)
Math
1= y1= 1= 2=
Math
1= 1= y1= 0=
y1= 1= 1= 4=
=
Math
c
Math
MATH
38. –37–
c
Math
#094 X3 – 2X2 – X + 2 = 0
N5(EQN)
4(aX3
+bX2
+cX+d=0)
Math
1= y2=
Math
y1= 2=
=
Math
c
Math
c
Math
MATH
39. –38–
#095 X2 – 4X + 4 = 0
N5(EQN)3(aX2
+bX+c=0)
Math
1= y4= 4=
Math
=
Math
#096
N6(MATRIX)
1(MatA)5(2×2)
MAT
2= 1= 1= 1=
14(MATRIX)1(Dim)
3(MatC)4(2×3)
MAT
1= 0= y1=
0= y1= 1=
#097
14(MATRIX)2(Data)
STO MAT
1(MatA)1t(STO)
e(MatB)e
MAT
y1= y1= 2=
MATH
47. –46–
#114
01 mp 1.67262158 × 10–27
kg
02 mn 1.67492716 × 10–27
kg
03 me 9.10938188 × 10–31
kg
04 mµ 1.88353109 × 10–28
kg
05 a0 0.5291772083 × 10–10
m
06 h 6.62606876 × 10–34
Js
07 µN 5.05078317 × 10–27
JT–1
08 µB 927.400899 × 10–26
JT–1
09 1.054571596 × 10–34
Js
10 α 7.297352533 × 10–3
11 re 2.817940285 × 10–15
m
12 λc 2.426310215 × 10–12
m
13 γp 2.67522212 × 108
s–1
T–1
14 λcp 1.321409847 × 10–15
m
15 λcn 1.319590898 × 10–15
m
16 R∞ 10973731.568549 m–1
17 u 1.66053873 × 10–27
kg
18 µp 1.410606633 × 10–26
JT–1
19 µe –928.476362 × 10–26
JT–1
20 µn –0.96623640 × 10–26
JT–1
21 µµ –4.49044813 × 10–26
JT–1
22 F 96485.3415 Cmol–1
23 e 1.602176462 × 10–19
C
24 NA 6.02214199 × 1023
mol–1
25 k 1.3806503 × 10–23
JK–1
26 Vm 22.413996 × 10–3
m3
mol–1
27 R 8.314472 Jmol–1
K–1
28 C0 299792458 ms–1
29 C1 3.74177107 × 10–16
Wm2
30 C2 1.4387752 × 10–2
mK
31 σ 5.670400 × 10–8
Wm–2
K–4
32 ε0 8.854187817 × 10–12
Fm–1
33 µ0 12.566370614 × 10–7
NA–2
34 φ 0 2.067833636 × 10–15
Wb
48. –47–
35 g 9.80665 ms–2
36 G0 7.748091696 × 10–5
S
37 Z0 376.730313461 Ω
38 t 273.15 K
39 G 6.673 × 10–11
m3
kg–1
s–2
40 atm 101325 Pa
#115
17(CONST)
28(c0)=
Math
#116
1/!
Math
17(CONST)
Math
32(ε0)
17(CONST)
Math
33(µ0)
=
Math
MATH
c0 = 1/ ε0 0µMATH
49. –48–
#117
01 in ' cm 1 [inch] = 2.54 [cm]
02 cm ' in 1 [cm] = (1/2.54) [inch]
03 ft ' m 1 [ft] = 0.3048 [m]
04 m ' ft 1 [m] = (1/0.3048) [ft]
05 yd ' m 1 [yd] = 0.9144 [m]
06 m ' yd 1 [m] = (1/0.9144) [yd]
07 mile ' km 1 [mile] = 1.609344 [km]
08 km ' mile 1 [km] = (1/1.609344) [mile]
09 n mile ' m 1 [n mile] = 1852 [m]
10 m ' n mile 1 [m] = (1/1852) [n mile]
11 acre ' m2
1 [acre] = 4046.856 [m2
]
12 m2
' acre 1 [m2
] = (1/4046.856) [acre]
13 gal (US) 'R 1 [gal (US)] = 3.785412 [R]
14 R' gal (US) 1 [R] = (1/3.785412) [gal (US)]
15 gal (UK) 'R 1 [gal (UK)] = 4.54609 [R]
16 R' gal (UK) 1 [R] = (1/4.54609) [gal (UK)]
17 pc ' km 1 [pc] = 3.085678 × 1013
[km]
18 km ' pc 1 [km] = (1/(3.085678 × 1013
)) [pc]
19 km/h ' m/s 1 [km/h] = (5/18) [m/s]
20 m/s ' km/h 1 [m/s] = (18/5) [km/h]
21 oz ' g 1 [oz] = 28.34952 [g]
22 g ' oz 1 [g] = (1/28.34952) [oz]
23 lb ' kg 1 [lb] = 0.4535924 [kg]
24 kg ' lb 1 [kg] = (1/0.4535924) [lb]
25 atm ' Pa 1 [atm] = 101325 [Pa]
26 Pa ' atm 1 [Pa] = (1/101325) [atm]
27 mmHg ' Pa 1 [mmHg] = 133.3224 [Pa]
28 Pa ' mmHg 1 [Pa] = (1/133.3224) [mmHg]
29 hp ' kW 1 [hp] = 0.7457 [kW]
30 kW ' hp 1 [kW] = (1/0.7457) [hp]
31 kgf/cm2
' Pa 1 [kgf/cm2
] = 98066.5 [Pa]
32 Pa ' kgf/cm2
1 [Pa] = (1/98066.5) [kgf/cm2
]
33 kgf • m ' J 1 [kgf • m] = 9.80665 [J]
34 J ' kgf • m 1 [J] = (1/9.80665) [kgf • m]
50. –49–
35 lbf/in2
' kPa 1 [lbf/in2
] = 6.894757 [kPa]
36 kPa ' lbf/in2
1 [kPa] = (1/6.894757) [lbf/in2
]
37 °F ' °C t [°F] = (t – 32)/1.8 [°C]
38 °C ' °F t [°C] = (1.8 × t + 32) [°F]
39 J ' cal 1 [J] = (1/4.1858) [cal] *
40 cal ' J 1 [cal] = 4.1858 [J]
#118 5cm = ? in
5
18(CONV)
02(cm'in)
=
LINE
51. –50–
#119 100g = ? oz
100
18(CONV)
22(g'oz)
=
#120 –31°C = ? °F
y31
18(CONV)
38(°C'°F)
=
LINE
LINE
52. CASIO COMPUTER CO., LTD.
6-2, Hon-machi 1-chome
Shibuya-ku, Tokyo 151-8543, Japan
SA0411-B Printed in China
Imprimé en Chine