The interactions of electrons with matter have great explanatory power and are …
The interactions of electrons with matter have great explanatory power and are central to many technologies from transistors, diodes, smoke detectors, and dosemeters to sophisticated imaging, lasers, and quantum computing. A conceptual grasp of the interactions of electrons in general allows students to acquire deeper understanding that can be applied to a very broad range of technologies.
Use a series of interactive models and games to explore electrostatics. Learn …
Use a series of interactive models and games to explore electrostatics. Learn about the effects positive and negative charges have on one another, and investigate these effects further through games. Learn about Coulomb's law and the concept that both the distance between the charges and the difference in the charges affect the strength of the force. Explore polarization at an atomic level, and learn how a material that does not hold any net charge can be attracted to a charged object. Students will be able to:
Explore how heating works in different rooms in the home. Rooms may …
Explore how heating works in different rooms in the home. Rooms may be bigger or smaller, may have windows or no windows, and may have multiple sources of heat or one. All of the conditions will affect how well a room will be heated, and subsequently the room’s energy efficiency. A more energy-efficient room will require less energy to produce the same outcome (e.g., the same level of heating).
El módulo de Calidad del Aire de Alta Aventura Científica contiene cinco …
El módulo de Calidad del Aire de Alta Aventura Científica contiene cinco actividades. En este módulo se explora la pregunta: ¿Estará el aire lo suficientemente limpio como para respirarlo? Serán guiados a través del análisis de modelos y datos del mundo real a medida que exploran las interacciones de los factores que afectan la calidad del aire de una región. Al finalizar el módulo serán capaces de predecir el efecto del desarrollo humano sobre la calidad del aire de una región.
Explore the concept of evaporative cooling through a hands-on experiment. Use a …
Explore the concept of evaporative cooling through a hands-on experiment. Use a wet cloth and fan to model an air-conditioner and use temperature and relative humidity sensors to collect data. Then digitally plot the data using graphs in the activity. In an optional extension, make your own modifications to improve the cooler's efficiency.
This activity introduces students to the idea that all living organisms must …
This activity introduces students to the idea that all living organisms must compete for food. Students control a rabbit in a field with edible plants, at first alone, and later joined by computer-controlled rabbits. With such competition it becomes harder and harder for the students to keep their rabbit alive. Students shift their thinking from a focus on individual organisms to a concern for the well-being of the population as a whole. (Evolution Activity 6 of 10.)
This activity places the control of the environment under the student's control. …
This activity places the control of the environment under the student's control. A field starts off with a uniform light level, and thus capable of growing plants with medium-sized leaves. Students can alter the environment by 'growing' a chain of mountains through the field. Students are challenged to grow the mountains to their maximum height (corresponding to the maximum change in light level on either side of the chain) while maintaining a viable population of plants on each side. (Evolution Activity 4 of 10.)
The goal of this activity is to introduce students to the variation …
The goal of this activity is to introduce students to the variation that exists in a population of organisms. Students plant different seeds in a field with a gradient of sunlight. Their seeds survive the winter and grow into plants the following spring to reinforce the point that the evolutionary changes the students observe take place over many generations. In a second model, a plant produces seeds, some of which grow into plants that are slightly different from those of the parent plant. (Evolution Activity 2 of 10.)
The goal of this activity is to give students the opportunity to …
The goal of this activity is to give students the opportunity to 'think like a scientist,' making hypotheses, doing experiments, making observations, and analyzing data. Students are encouraged to construct and conduct their own experiments with ecosystems comprising grass, rabbits, and up to two predator species: hawks and foxes. (Evolution Activity 10 of 10.)
The concept of interdependence in an ecosystem and its effect on the …
The concept of interdependence in an ecosystem and its effect on the evolution of populations is further explored through a model of a dam. Students build a dam in the middle of the field, dividing the ecosystem in half to illustrate the effects of geographic isolation. They watch as the grass and then the rabbit populations in that region shift to one variant in the population. When students remove the dam, they observe the ecosystem slowly return to its original state. (Evolution Activity 8 of 10.)
In this activity, students review inheritance with variation. A Virtual Field model …
In this activity, students review inheritance with variation. A Virtual Field model has light levels that vary smoothly from top to bottom. A single type of seed grows best in the center of the field, but the model includes variation in the offspring seeds. Since each plant scatters seeds randomly, it happens occasionally that some of these different seeds fall in a location where the light level is just right for it. When this happens the seed will grow into a healthy plant that will produce seeds of its own. In this way, the single type of plant eventually evolves into a full spectrum of different varieties. (Evolution Activity 3 of 10.)
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