According to PIMS (profit impact of marketing strategy), an important lever of business success is growth. Among 37 variables, growth is mentioned as one of the most important variables for success: market share, market growth, marketing expense to sales ratio or a strong market position. The question how much growth is sustainable is answered by two concepts with different perspectives: * The sustainable growth rate (SGR) concept by Robert C. Higgins, describes optimal growth from a financial perspective assuming a given strategy with clear defined financial frame conditions/ limitations. Sustainable growth is defined as the annual percentage of increase in sales that is consistent with a defined financial policy (target debt to equity ratio, target dividend payout ratio, target profit margin, target ratio of total assets to net sales). This concept provides a comprehensive financial framework and formula for case/ company specific SGR calculations. * The optimal growth concept by Martin Handschuh, Hannes Lösch, Björn Heyden et al. assesses sustainable growth from a total shareholder return creation and profitability perspective—independent of a given strategy, business model and/ or financial frame condition. This concept is based on statistical long-term assessments and is enriched by case examples. It provides an orientation frame for case/ company specific mid- to long-term growth target setting. (Wikipedia).
Exponential Growth Rates (1 of 2: Instantaneous)
More resources available at www.misterwootube.com
From playlist Rates of Change
Logistic Growth: Using Recursive Equations
This lesson explains the recursive equation used to model logistic growth. Site: http://mathispower4u.com
From playlist Linear, Exponential, and Logistic Growth: Recursive/Explicit
Ex: Find Exponential Growth Rate and Make Prediction of a Future Home Value
This video explains how to determine an exponential growth rate from data and then make a prediction about a future value.
From playlist Solving Applications Using Exponential Equations / Compounded and Continuous Interest / Exponential Regression
Growth/Decay with Environmental Factors (1 of 2: Difference in equations)
More resources available at www.misterwootube.com
From playlist Rates of Change
Ex: Exponential Functions: Growth Rate and Growth Factor
This video explains to to find the growth rate as a decimal and a percent and how to find the growth factor. Site: http://mathispower4u.com
From playlist Solving Applications of Exponential Growth and Decay
Ex: Determine Exponential Growth Functions Given Growth Rate and Initial Value (y=ab^x)
This video provides examples on how to write an exponential growth function given the growth rate as a percentage and the initial value. Site: http://mathispower4u.com
From playlist Solving Applications of Exponential Growth and Decay
Introduces notation and formulas for exponential growth models, with solutions to guided problems.
From playlist Discrete Math
John Roemer: “Sustainability for a Warming Planet”
John Roemer is the Elizabeth S. and A. Varick Stout Professor of Political Science and Economics at Yale University. His research concerns political economy and distributive justice. Professor Roemer is a fellow of the Econometric Society, a past Guggenheim fellow and Russell Sage fellow,
From playlist The MacMillan Report
Scenario 6: Sustainable Development
MIT 11.601 Introduction to Environmental Policy and Planning, Fall 2016 View the complete course: https://ocw.mit.edu/11-601F16 Instructor: Emily Grandjean The philosophical underpinnings of sustainable development. License: Creative Commons BY-NC-SA More information at https://ocw.mit.e
From playlist MIT 11.601 Introduction to Environmental Policy and Planning
HSC EES Module 8 Overharvesting
HSC Earth and Environmental Science Module 8 Resource Management Sustainability Overharvesting
From playlist Y12 EES Mod 8 Resource Management
Stanford Seminar - Minimal Models of Human Nature Interaction
"Minimal Models of Human-Nature Interaction: 1) HANDY: Human and Nature Dynamics and 2) COWA: A Coupled Human-Climate-Water Model" -Safa Motesharrei, University of Maryland Colloquium on Computer Systems Seminar Series (EE380) presents the current research in design, implementation, anal
From playlist Engineering
Stanford Webinar - How and Why Successful Organizations Embrace Sustainability, Julia Novy-Hildesley
https://online.stanford.edu/programs/strategies-sustainability-program Sustainability is increasingly important for all organizations, across all industries. Taking a proactive approach not only improves the world we live in, but can also give your organization a competitive advantage. In
From playlist Leadership & Management
ESS 280A Lecture 5: Demographics & China
UCI ESS 280A: Special Topics in Earth System Science (Fall 2013) Lec 05. Special Topics in ESS -- Demographics & China -- View the complete course: http://ocw.uci.edu/courses/ess_280a_special_topics_in_earth_system_science.html Instructor: Kenneth Pomeranz, Ph.D. License: Creative Commons
From playlist Earth System Science 280A: Special Topics in Earth System Science
22. Economic Development & Green Growth
MIT 15.031J Energy Decisions, Markets, and Policies, Spring 2012 View the complete course: http://ocw.mit.edu/15-031JS12 Instructor: Bob DiMatteo, Richard Schmalensee License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 15.031J Energy Decisions, Markets, Policies, Spring 2012
Excel Finance Class 20: Growth Ratios and Market Value Ratios
Download Excel File: https://people.highline.edu/mgirvin/YouTubeExcelIsFun/Busn233Ch03.xls Download pdf notes: https://people.highline.edu/mgirvin/YouTubeExcelIsFun/BUSN233cH03-16PAGES.pdf Download 2nd Excel File: https://people.highline.edu/mgirvin/YouTubeExcelIsFun/Busn233Ch03DaysInCashC
From playlist Excel Finance Free Course at YouTube. Cash Flow Analysis and Model Building (110 Videos).
Ex: Exponential Growth Application - Predicting World Population
This video provides an example of how to write exponential function and make a prediction about population when given the population of a given year with the annual growth rate. http:/mathispower4u.com
From playlist Solving Applications of Exponential Growth and Decay