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STEP 1:what is the challenge?why is it a challenge?how does it relate to the future scene?use words like may, might, and could.use research to support your ideas.categories (18): use each only ONCE.STEP 2:conditions: restate step 1 and summarizestem: how might we OR in what ways might weKVP: key verb phrase (only ONE)purpose: your goal (only ONE)parameters: date, topic, locationno conjunctions ("so that" is ok) use prepositions when more information is neededSTEP 3:who will do the solution?what will be done?refer to KVPrefer to purposehow will it work?why will it solve the underlying problem?use words like will, would, and shouldcategories (18): use as many as you canSTEP 4:create criteria for the solutions"which solution will..."STEP 5:rate your best solutions (step 3's) with the criteria from step 4MAKE SURE YOU ADD RIGHT!!!STEP 6:include:elaboration of solution that had the highest score (step 5)criteria the solution scored high on and tell whywhy is this solution humane? (be sure to include the word "humane")any obstacles in choosing this solution (be careful not to have too many large obstacles because then it was not a very good solution) and how to solve/avoid these obstacles
An exact solution is the accurate solution, whilst an approximate solution is only near enough
what is the solution for a good nutrition
it stand for Technique For Order preference BY Similarity to Ideal Situation The principle behind TOPSIS is simple: The chosen alternative should be as close to the ideal solution as possible and as far from the negative-ideal solution as possible. The ideal solution is formed as a composite of the best performance values exhibited (in the decision matrix) by any alternative for each attribute. The negative-ideal solution is the composite of the worst performance values. Proximity to each of these performance poles is measured in the Euclidean sense (e.g., square root of the sum of the squared distances along each axis in the "attribute space"), with optional weighting of each attribute.
There is the solution to a puzzle. There is a chemical solution There is an alloy There is a solution to an equation There is a solution to a problem
true
the requirements that must be met for an engineering solution to be successful
- to be soluble - to dissociate in the solution
1-Understand the problem2-Gather your resources.3-Come to an answer.4-Check your answer and present the solution..
Define Problem Statement Generate Multiple SolutionsAvoid premature decisionsGenerate Problem Solutions Define evaluation criteria for all solutions.evaluate Advantages & dis advantages for each solution.Select Best SolutionIdeas to Action (Select Action/Solution) Involve key participationGain AcceptanceCommitment for solution to work.Solution Action Planning (Agreement) Post Implement Analysis.EvaluationLessons LearnedSolution Evaluation Planning Evaluate how well the problem was solved.Evaluation of outcome and process
tyndall effect
One that identifies a problem and provides a solution to it ===============> APEXVS
problem-and-solution essay <-------NovaNet
Feasibility
Wait until the customer has finished speaking, and then explain the possible solution.
soution design and evaluation
Analysis, design, development, implementation, and evaluation (ADDIE) is a systematic instructional design model used to create effective learning solutions. It involves gathering information about the learning needs (analysis), planning the learning solution (design), creating the materials (development), putting the solution into action (implementation), and assessing its effectiveness (evaluation). This model helps ensure that the learning objectives are met and that the training or learning program is successful.