Mathcad се предлага с няколко допълнителни библиотеки със сметки - за машинни инженери, за строителни инженери, за инженери в областта на електротехниката и електрониката . Сега ще бъде представено съдържанието на библиотеката за машинни инженери.
About PTC Mathcad Worksheet Library - Mechanical Engineering
The PTC Mathcad Worksheet Library - Mechanical Engineering consists of 378 worksheets across three worksheet collections. This worksheet library gives you ready-made PTC Mathcad templates that you can customize to perform a wide range of mathematical tasks, from solving equations to graphing and calculus.
Worksheet Collections include:
Finite Element Beginnings
Mechanical Engineering Solved Problems
Finite Element Beginnings (152 Worksheets)
The Finite Element Beginnings collection is comprised of six chapters that cover the finite element method. This method is a numerical analysis technique used to obtain solutions to the differential equations that describe a wide variety of physical and non-physical problems. The six chapters cover: finite element beginnings, the discrete approach, finite elements of elastic continua, element interpolation and shape functions, mapped elements, and the method of weighted residuals.
Mechanical Engineering Solved Problems (30 Worksheets)
The Mechanical Engineering Collection consists of worked through problems in the topics of Statics, Dynamics, Vibrations, and Machine Design.
Common mechanical engineering calculations like: force, moment, work, energy, momentum, vibration, stress, and fatigue are solved and documented showing users how to leverage PTC Mathcad’s wide variety of functionality.
While going through the series of worksheets user will be shown how to utilize the following PTC Mathcad functionality.
Vectors and matrices
Finding roots of equations
QuickSheets (196 Worksheets)
Full-featured PTC Mathcad worksheets that:
Give you ready-made PTC Mathcad templates that you can customize to perform a wide range of mathematical tasks, from solving equations to graphing and calculus.
Show you how to use some of PTC Mathcad's special features, like programming.
Analyzing Process Capabilities
Calculating the Tensile Stress and Tensile Forces in the Bolt of a Flange Pipe
Calculating Water Amount for Borehole Drilling
Choosing a Cam-Type Clutch to Drive a Centrifugal Pump
Determining Suction Lift Pump Height Using Solve Blocks
Finding Channel Height Channel Width and Velocity of Water
Finding the Actual Force and Brake Capacity of a Long-Shoe Internal Drum Brake
Finite vs Infinite Life and Fatigue Failure for a Steel Object
Inventory Control Example in PTC Mathcad
Manufacturing Performance Curves in PTC Mathcad
Plotting Frequency Distribution Data in PTC Mathcad
Preparing Time Series for Data Analysis
Preventing System Failures with Reliability Testing for Pump Systems
Response Surface Modeling in PTC Mathcad
Using Cubic Splines to Determine Characteristics and Efficiency of a Pump
Using the Finite Element Method on Truss Structures
Visualization of Typical Wellbore Survey Data