More of Janice VanCleave's Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn why the Earth bulges at the equator, demonstrate the movement of the Earth’s axis, determine how the composition of the Earth affects its motion, and replicate the cause of the day-and-night cycle. They will also determine why the sky is not dark as soon as the Sun sinks below the horizon, learn how salt beds are formed, demonstrate how air takes up space, observe the effects of cool and warm temperatures on air movement, and replicate the formation of sea breezes. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




Janice VanCleave's Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn why the Earth bulges at the equator, demonstrate the movement of the Earth’s axis, determine how the composition of the Earth affects its motion, and replicate the cause of the day-and-night cycle. They will also determine why the sky is not dark as soon as the Sun sinks below the horizon, learn how salt beds are formed, demonstrate how air takes up space, observe the effects of cool and warm temperatures on air movement, and replicate the formation of sea breezes. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




More of Janice VanCleave's Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn why the Earth bulges at the equator, demonstrate the movement of the Earth’s axis, determine how the composition of the Earth affects its motion, and replicate the cause of the day-and-night cycle. They will also determine why the sky is not dark as soon as the Sun sinks below the horizon, learn how salt beds are formed, demonstrate how air takes up space, observe the effects of cool and warm temperatures on air movement, and replicate the formation of sea breezes. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




Even More of Janice VanCleave's Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn how crystals and metamorphic and sedimentary rocks form, why seismic waves move more slowly through sand, the effect of rain on hills with and without ground cover, the effect of acid on statues, and how freezing water causes rock movement. They will also determine and demonstrate how rain affects topsoil, what amount of pressure is required to fold the Earth�s crust, how a gentle breeze can move heavy objects, and how air pressure can be used to create a spraying fountain. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




Even More of Janice VanCleave's Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn how crystals and metamorphic and sedimentary rocks form, why seismic waves move more slowly through sand, the effect of rain on hills with and without ground cover, the effect of acid on statues, and how freezing water causes rock movement. They will also determine and demonstrate how rain affects topsoil, what amount of pressure is required to fold the Earth�s crust, how a gentle breeze can move heavy objects, and how air pressure can be used to create a spraying fountain. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




Many More of Janice VanCleave’s Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn why the atmosphere is thinner at the Earth's poles, how a lunar eclipse can indicate Earth's shape, and how to create a Foucault's pendulum. They will also demonstrate continental drift, learn how to model meridians and parallels, and create a topographic map and a 3D model of a mountain. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave shows just how much fun science can be.




Janice VanCleave's Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn why the Earth bulges at the equator, demonstrate the movement of the Earth’s axis, determine how the composition of the Earth affects its motion, and replicate the cause of the day-and-night cycle. They will also determine why the sky is not dark as soon as the Sun sinks below the horizon, learn how salt beds are formed, demonstrate how air takes up space, observe the effects of cool and warm temperatures on air movement, and replicate the formation of sea breezes. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




Many More of Janice VanCleave’s Wild, Wacky, and Weird Earth Science Experiments


Book Description

In a series of fun and involving hands-on earth science experiments, kids learn why the atmosphere is thinner at the Earth's poles, how a lunar eclipse can indicate Earth's shape, and how to create a Foucault's pendulum. They will also demonstrate continental drift, learn how to model meridians and parallels, and create a topographic map and a 3D model of a mountain. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave shows just how much fun science can be.




More of Janice VanCleave's Wild, Wacky, and Weird Astronomy Experiments


Book Description

In a series of fun and involving hands-on astronomy experiments, kids learn how distance from the sun affects atmospheric temperature, why the Earth is called the “Blue Planet,” why Jupiter’s ring shines, and how to reproduce Mars’ red soil and Jupiter’s stormy red spot. They will also determine why radio wave receivers are curved, how radio waves are sent around the Earth via satellite, how satellites enter into orbit, and how rockets achieve escape velocity. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.




More of Janice VanCleave's Wild, Wacky, and Weird Physics Experiments


Book Description

In a series of fun and involving hands-on physics experiments, kids charge an object with static electricity, demonstrate how static charges produce sound, use magnetic force to suspend a paper airplane, determine that objects in water have a different weight than they do in air, and learn how a substance’s buoyancy can be changed. They will also determine if shape determines the strength of an object, learn the effect that an object’s center of gravity has on motion, demonstrate how the length of a pendulum affects the time of each swing, and discover how the center of gravity is also the balancing point of an object. Featuring color illustrations and safe, simple step-by-step instructions, Janice VanCleave again shows just how much fun science can be.