Etape de la veille informationnelle
Expression des besoins:- tendances de consommation ?
- innovations technologiques
- réglementations environnementaux
identifier/ sélectioner les sources:- canaux pertinents
- fiabilité sources
=> pour qualité de l'info
Collecter la/ les information(s):- ponctuel/continue
- manuel/ informatisé
=> triées, validées, organisées
Analyser l'information:- faiblesses/ opportunités
- reformuler recommandations
=> intérpréter impact de new pratiques
Diffuser l'analyse des résultats: - présentation clair/adaptée au public en question
=> vulgariser pour décideurs pouvant utiliser directement l'info
Exploiter et évaluer:=> si non >> amélioration
Discover the secrets of science
EXPLORE THE SCIENTIFIC WORLD
Acts as core of discoveries
Problem statement
Observation
Experimentation
Hypothesis formulation
Record and data analysis
Contextualize your topic with a subtitle.
Conclusions
We evaluate the data in relation to our initial hypothesis. We generalize the results and reflect on the impact of our discovery.
Discover the secrets of science
EXPLORE THE SCIENTIFIC WORLD
Problem statement
Observation
Hypothesis formulation
Write a subtitle that provides more information
Experiment design
Results analysis
Experimentation
Conclusions and communication of findings
Write a subtitle that provides more information
+20%
growth: with direct sunlight.
+10%
growth: under indirect light.
-15%
growth: in total darkness.
7. Conclusions and generalization of the results
+5%
photosynthesis: using artificial light.
1. Observación
Observamos el entorno y planteamos interrogantes sobre fenómenos naturales. Esta curiosidad es la chispa inicial de cualquier descubrimiento científico.
+ info
4. Experimentation
We observe, record, and analyze data to obtain our answers.
We conduct controlled experiments to test our hypothesis.
+ info
5. Experimentation
between phenomena, while analyzing the results enhances the understanding of the environment. Experimentation drives the advancement of scientific and technological knowledge.
Experimental practice in science is essential for observing direct effects and contrasting hypotheses with reality. Well-designed experiments reveal patterns and relationships.
+ info
2. Problem Statement
We identify a specific phenomenon to investigate.
This way we can obtain clear and precise answers.
Formulating the problem is crucial to guide the scientific process.
5. Confrontation of data with the hypothesis
We meticulously document each observation, measurement, and result. This step is essential for correctly interpreting the data from the experiment.
1. Observation
We observe the environment and ask questions about natural phenomena. This curiosity is the initial spark of any scientific discovery.
+ info
3. Formulation of the hypothesis
We propose a tentative explanation based on previous knowledge. It is a prediction that will guide the design of our experiments:
- Use clear and concise language.
- Specify the variables and their relationship.
- Define the variables operationally.
- Indicate the population or sample to which it applies.
Use an image and use this space to describe it. It is essential for a presentation to have a greater visual impact.
2. Problem Statement
We identify a specific phenomenon to investigate.
Formulating the problem is crucial to guide the scientific process.
This way we can obtain clear and precise answers.
6. Results Analysis
Data analysis in science is key to turning observations into understanding. Comparing results with hypotheses allows us to validate or adjust our initial understanding.
+ info
4. Experiment design
01. Draw the path of knowledge: Visual diagrams and schemes strengthen the understanding and retention of the scientific method. 02. Prepare your scientific scenario: Prepare your speech well and master the subject to achieve an exciting and natural presentation.
Utilize an image and use this space to describe it. It is essential for a presentation to have a greater visual impact.
+ info
+20%
growth: with direct sunlight.
+10%
growth: under indirect light.
-15%
growth: in total darkness.
6. Conclusions and generalization of the results
+5%
photosynthesis: using artificial light.
3. Formulation of the hypothesis
We propose a tentative explanation based on previous knowledge. It is a prediction that will guide the design of our experiments:
- Use clear and concise language.
- Specify the variables and their relationship.
- Define the variables operationally.
- Indicate the population or sample to which it applies.
Use an image and use this space to describe it. It is essential for a presentation to have a greater visual impact.
6
AMANDINE ARROYO
Created on September 22, 2025
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Transcript
Etape de la veille informationnelle
Expression des besoins:- tendances de consommation ?
- innovations technologiques
- réglementations environnementaux
identifier/ sélectioner les sources:
- canaux pertinents
- fiabilité sources
=> pour qualité de l'infoCollecter la/ les information(s):
- ponctuel/continue
- manuel/ informatisé
=> triées, validées, organiséesAnalyser l'information:
- faiblesses/ opportunités
- reformuler recommandations
=> intérpréter impact de new pratiquesDiffuser l'analyse des résultats:
- présentation clair/adaptée au public en question
=> vulgariser pour décideurs pouvant utiliser directement l'infoExploiter et évaluer:
- pertinents ?
=> si non >> améliorationDiscover the secrets of science
EXPLORE THE SCIENTIFIC WORLD
Acts as core of discoveries
Problem statement
Observation
Experimentation
Hypothesis formulation
Record and data analysis
Contextualize your topic with a subtitle.
Conclusions
We evaluate the data in relation to our initial hypothesis. We generalize the results and reflect on the impact of our discovery.
Discover the secrets of science
EXPLORE THE SCIENTIFIC WORLD
Problem statement
Observation
Hypothesis formulation
Write a subtitle that provides more information
Experiment design
Results analysis
Experimentation
Conclusions and communication of findings
Write a subtitle that provides more information
+20%
growth: with direct sunlight.
+10%
growth: under indirect light.
-15%
growth: in total darkness.
7. Conclusions and generalization of the results
+5%
photosynthesis: using artificial light.
1. Observación
Observamos el entorno y planteamos interrogantes sobre fenómenos naturales. Esta curiosidad es la chispa inicial de cualquier descubrimiento científico.
+ info
4. Experimentation
We observe, record, and analyze data to obtain our answers.
We conduct controlled experiments to test our hypothesis.
+ info
5. Experimentation
between phenomena, while analyzing the results enhances the understanding of the environment. Experimentation drives the advancement of scientific and technological knowledge.
Experimental practice in science is essential for observing direct effects and contrasting hypotheses with reality. Well-designed experiments reveal patterns and relationships.
+ info
2. Problem Statement
We identify a specific phenomenon to investigate.
This way we can obtain clear and precise answers.
Formulating the problem is crucial to guide the scientific process.
5. Confrontation of data with the hypothesis
We meticulously document each observation, measurement, and result. This step is essential for correctly interpreting the data from the experiment.
1. Observation
We observe the environment and ask questions about natural phenomena. This curiosity is the initial spark of any scientific discovery.
+ info
3. Formulation of the hypothesis
We propose a tentative explanation based on previous knowledge. It is a prediction that will guide the design of our experiments:
Use an image and use this space to describe it. It is essential for a presentation to have a greater visual impact.
2. Problem Statement
We identify a specific phenomenon to investigate.
Formulating the problem is crucial to guide the scientific process.
This way we can obtain clear and precise answers.
6. Results Analysis
Data analysis in science is key to turning observations into understanding. Comparing results with hypotheses allows us to validate or adjust our initial understanding.
+ info
4. Experiment design
01. Draw the path of knowledge: Visual diagrams and schemes strengthen the understanding and retention of the scientific method. 02. Prepare your scientific scenario: Prepare your speech well and master the subject to achieve an exciting and natural presentation.
Utilize an image and use this space to describe it. It is essential for a presentation to have a greater visual impact.
+ info
+20%
growth: with direct sunlight.
+10%
growth: under indirect light.
-15%
growth: in total darkness.
6. Conclusions and generalization of the results
+5%
photosynthesis: using artificial light.
3. Formulation of the hypothesis
We propose a tentative explanation based on previous knowledge. It is a prediction that will guide the design of our experiments:
Use an image and use this space to describe it. It is essential for a presentation to have a greater visual impact.