This capture the flag activity encourages students to work in a team setting.
- Subject:
- Physical Education
- Material Type:
- Activity/Lab
- Author:
- Katie Neal
- Date Added:
- 01/02/2024
This capture the flag activity encourages students to work in a team setting.
This is a lesson created for a beginning dance class. Students have the opportunity to explore the elements of dance, creating theme, and building movement phrases based on both.
Students will take digital pictures of Utah symbols and landmarks they find in their neighborhoods or communities. They will email them to their teacher, and the teacher will put them into a slideshow or movie to share with the class. This lesson was created by Traci Rindlisbach.
Some people rent a car when they are going on a long trip. They are convinced they save money. Even if they do not save money, they feel that the knowledge that "if the car breaks down on the trip, the problem is the rental company's" makes the rental worth it. Analyze this situation and determine under what conditions renting a car is a more appropriate option. Determine mileage limits on one's own car and a break-even value of "ease of mind" for the driver and her family.
The task requires the student to use logarithms to solve an exponential equation in the realistic context of carbon dating, important in archaeology and geology, among other places. Students should be guided to recognize the use of the natural logarithm when the exponential function has the given base of e, as in this problem. Note that the purpose of this task is algebraic in nature -- closely related tasks exist which approach similar problems from numerical or graphical stances.
In the task "Carbon 14 Dating'' the amount of Carbon 14 in a preserved plant is studied as time passes after the plant has died. In practice, however, scientists wish to determine when the plant died and, as this task shows, this is not possible with a simple measurement of the amount of Carbon 14 remaining in the preserved plant. The equation for the amount of Carbon 14 remaining in the preserved plant is in many ways simpler here, using 12 as a base.
This problem introduces the method used by scientists to date certain organic material. It is based not on the amount of the Carbon 14 isotope remaining in the sample but rather on the ratio of Carbon 14 to Carbon 12. This ratio decreases, hypothetically, at a constant exponential rate as soon as the organic material has ceased to absorb Carbon 14, that is, as soon as it dies. This problem is intended for instructional purposes only. It provides an interesting and important example of mathematical modeling with an exponential function.
This exploratory task requires the student to use this property of exponential functions in order to estimate how much Carbon 14 remains in a preserved plant after different amounts of time.
This exploratory task requires the student to use a property of exponential functions in order to estimate how much Carbon 14 remains in a preserved plant after different amounts of time.
The task requires the student to use logarithms to solve an exponential equation in the realistic context of carbon dating, important in archaeology and geology, among other places.
In the task ''Carbon 14 Dating'' the amount of Carbon 14 in a preserved plant is studied as time passes after the plant has died. In practice, however, scientists wish to determine when the plant died and, as this task shows, this is not possible with a simple measurement of the amount of Carbon 14 remaining in the preserved plant.
This problem introduces the method used by scientists to date certain organic material. It is based not on the amount of the Carbon 14 isotope remaining in the sample but rather on the ratio of Carbon 14 to Carbon 12. This ratio decreases, hypothetically, at a constant exponential rate as soon as the organic material has ceased to absorb Carbon 14, that is, as soon as it dies.
Information on the carbon cycle.
Students will look at the balance of carbon among the systems and construct an explanation of how the movement of carbon can result in changes to the system.
In this video segment adapted from NOVA, find out how cars made of a material stronger than steel and half the weight can help combat climate change.
In this lesson plan, educators will teach their students what cardiorespiratory health and endurance is, exercises that increase cardiovascular health, and have students measure their own cardiorespiratory health using the fitnessgram pacer test.
This task lets students explore the concept of independence of events. There are two alternative ways of solving the problem.
Success in one’s career depends on much more than just earning good grades in school. Help increase learners’ workforce readiness by building strengths in key interpersonal skills, such as problem solving, leadership, communication, teamwork and collaboration, and critical thinking, using this collection of resources produced by WGBH. The resources can be used to engage learners with media and prompt rich discussion in the classroom and other educational settings.
The collection is currently in development. Browse the initial set of resources—focused on nonverbal communication—and return for new content to be added over time.
Students will assess their career aspirations, evaluate and compare career opportunities based on aptitudes and interests, and plan a career while understanding the income potential of that chosen career.
In this mini-unit, students begin by creating a career plan and an education plan. After learning financial aid vocabulary concepts, students will play an online game called “Payback” to apply knowledge learned about paying for college. The activity concludes with students creating a personal resume and taking notes on job interview tips.