Add to ORKGIn this activity students will work with ice in order to gain a practical application of math concepts. It will evolve into an inquiry-based study to determine if the dimensions of the ice will make a difference in the way the ice floats in the water. The inquiry lesson may lead to further inquiry-based investigations for extended learning in the classroom or home. Educational levels: High school
Inquiry is central to the learning of science. It has been described as “an approach to learning tha...
WELCOME to WINDOWS on the INQUIRY CLASSROOM! You have landed on a piece of a National Science Founda...
This case study uses the example of ice in fresh and salt water- in which type of water would ice me...
In this activity, students will explore the characteristics of ice and explain the influencing facto...
This module includes several lessons aimed at introducing ice science to students. In the first acti...
In this lesson, students learn about the causes and effects of the melting ice formations in Antarct...
This classroom activity has students graph and analyze chemical concentrations from ice core data. T...
In this resource, students will discover that there are notable differences between sea ice and fres...
In this activity, students build on their growing knowledge of ice and glacier growth. The students ...
Teaching High School Science Through Inquiry offers a complete plan for nurturing a culture of inqui...
In this exercise, students observe simulations of melting sea ice and a melting continental ice shee...
This product includes five classroom activities related to the discovery of water ice on Mars. In 20...
This lesson plan allows students to participate in a number of in-class experiments using ice. Stude...
The aim of the present work is to determine the reaction of Czech student to Inquiry-based science e...
Plan B Paper. 2013. Master of Science in Education- Physics--University of Wisconsin-River Falls. Ph...
Inquiry is central to the learning of science. It has been described as “an approach to learning tha...
WELCOME to WINDOWS on the INQUIRY CLASSROOM! You have landed on a piece of a National Science Founda...
This case study uses the example of ice in fresh and salt water- in which type of water would ice me...
In this activity, students will explore the characteristics of ice and explain the influencing facto...
This module includes several lessons aimed at introducing ice science to students. In the first acti...
In this lesson, students learn about the causes and effects of the melting ice formations in Antarct...
This classroom activity has students graph and analyze chemical concentrations from ice core data. T...
In this resource, students will discover that there are notable differences between sea ice and fres...
In this activity, students build on their growing knowledge of ice and glacier growth. The students ...
Teaching High School Science Through Inquiry offers a complete plan for nurturing a culture of inqui...
In this exercise, students observe simulations of melting sea ice and a melting continental ice shee...
This product includes five classroom activities related to the discovery of water ice on Mars. In 20...
This lesson plan allows students to participate in a number of in-class experiments using ice. Stude...
The aim of the present work is to determine the reaction of Czech student to Inquiry-based science e...
Plan B Paper. 2013. Master of Science in Education- Physics--University of Wisconsin-River Falls. Ph...
Inquiry is central to the learning of science. It has been described as “an approach to learning tha...
WELCOME to WINDOWS on the INQUIRY CLASSROOM! You have landed on a piece of a National Science Founda...
This case study uses the example of ice in fresh and salt water- in which type of water would ice me...