Physics Cycle 2
Physics Cycle 2
An electric circuit is a closed loop of electric elements where negative electric charges flow. Every electric circuit has a source of electric charges that carry electric potential energy to the other parts also called the circuit components.Explore basic electric circuits. Learn the definition of an electric circuit and understand its different types. Discover the components of electric circuits !
An electric circuit is a closed loop of electric elements where negative electric charges flow. Every electric circuit has a source of electric charges that carry electric potential energy to the other parts also called the circuit components. Explore basic electric circuits. Learn the definition of an electric circuit and understand its different types. Discover the components of electric circuits !
Matter is defined as anything that has mass and takes up space. All types of matter have certain properties that are unique to that matter. These properties can be divided into two separate categories: physical properties and chemical properties. Learn about physical and chemical properties. Understand what they are, the difference between them, and the physical and chemical properties of matter !
The matter is everywhere: we are made of matter, the pencils you’ve used are made of matter, the water you drink is made of matter, and the air we breathe is also a form of matter (gas). If the matter didn’t exist, nothing would. If we matter ourselves, how would we exist if matter did not? Without air, how would we breathe? This dependence of humans on air makes the gaseous state of matter, extremely important to us. Learn about the properties and characteristics of gas !
The matter is everywhere: we are made of matter, the pencils you’ve used are made of matter, the water you drink is made of matter, and the air we breathe is also a form of matter (gas). If the matter didn’t exist, nothing would. If we matter ourselves, how would we exist if matter did not? Without air, how would we breathe? This dependence of humans on air makes the gaseous state of matter, extremely important to us. Learn about the properties and characteristics of gas !
From the digital alarm clocks that wake us up every morning to the vehicles that help us get from one place to another, we rely on electric energy to sail smoothly through each day. Energy is the ability to do work or apply force to move an object. The movement of electric charges causes electrical energy. In the case of electrical energy, the force is the electrical attraction or repulsion between charged particles. The faster the electric charges move, the more electrical energy they carry.
From the digital alarm clocks that wake us up every morning to the vehicles that help us get from one place to another, we rely on electric energy to sail smoothly through each day. Energy is the ability to do work or apply force to move an object. The movement of electric charges causes electrical energy. In the case of electrical energy, the force is the electrical attraction or repulsion between charged particles. The faster the electric charges move, the more electrical energy they carry.
Motion is a change in the position or orientation of a body relative to another object or frame. Motion is all around people and the natural world every day. Right now, humans on Earth are rotating at 770 miles per hour east as the Earth spins. The Earth is rotating around the Sun at 66,000 miles per hour. The solar system also moves towards other solar systems at 43,000 miles an hour and so go on ...
Understand the concept of motion. Learn how to solve equations of motion in physics, specifically, equations for average acceleration and average velocity !
Motion is a change in the position or orientation of a body relative to another object or frame. Motion is all around people and the natural world every day. Right now, humans on Earth are rotating at 770 miles per hour east as the Earth spins. The Earth is rotating around the Sun at 66,000 miles per hour. The solar system also moves towards other solar systems at 43,000 miles an hour and so go on ...
Understand the concept of motion. Learn how to solve equations of motion in physics, specifically, equations for average acceleration and average velocity !
Motion is a change in the position or orientation of a body relative to another object or frame. Motion is all around people and the natural world every day. Right now, humans on Earth are rotating at 770 miles per hour east as the Earth spins. The Earth is rotating around the Sun at 66,000 miles per hour. The solar system also moves towards other solar systems at 43,000 miles an hour and so go on ...
Understand the concept of motion. Learn how to solve equations of motion in physics, specifically, equations for average acceleration and average velocity !
Motion is a change in the position or orientation of a body relative to another object or frame. Motion is all around people and the natural world every day. Right now, humans on Earth are rotating at 770 miles per hour east as the Earth spins. The Earth is rotating around the Sun at 66,000 miles per hour. The solar system also moves towards other solar systems at 43,000 miles an hour and so go on ...
Understand the concept of motion. Learn how to solve equations of motion in physics, specifically, equations for average acceleration and average velocity !
Motion is a change in the position or orientation of a body relative to another object or frame. Motion is all around people and the natural world every day. Right now, humans on Earth are rotating at 770 miles per hour east as the Earth spins. The Earth is rotating around the Sun at 66,000 miles per hour. The solar system also moves towards other solar systems at 43,000 miles an hour and so go on ...
Understand the concept of motion. Learn how to solve equations of motion in physics, specifically, equations for average acceleration and average velocity !
In simple words, the speed of a moving object signifies how fast or how slow the object is traveling. When a child is walking slowly towards school, their speed is relatively less, whereas when the same child is running to get ice cream, their speed is much higher. Similarly, neighborhood cars generally have lower speeds than racing cars. In scientific terms, speed can be defined as the rate of change of an object's position. Let's know more about speed !
In simple words, the speed of a moving object signifies how fast or how slow the object is traveling. When a child is walking slowly towards school, their speed is relatively less, whereas when the same child is running to get ice cream, their speed is much higher. Similarly, neighborhood cars generally have lower speeds than racing cars. In scientific terms, speed can be defined as the rate of change of an object's position. Let's know more about speed !
In simple words, the speed of a moving object signifies how fast or how slow the object is traveling. When a child is walking slowly towards school, their speed is relatively less, whereas when the same child is running to get ice cream, their speed is much higher. Similarly, neighborhood cars generally have lower speeds than racing cars. In scientific terms, speed can be defined as the rate of change of an object's position. Let's know more about speed !
In simple words, the speed of a moving object signifies how fast or how slow the object is traveling. When a child is walking slowly towards school, their speed is relatively less, whereas when the same child is running to get ice cream, their speed is much higher. Similarly, neighborhood cars generally have lower speeds than racing cars. In scientific terms, speed can be defined as the rate of change of an object's position. Let's know more about speed !
In physics, we come across various motions of a body. What causes the motion of an object? The answer is a force. What stops an object under motion? The answer is Force. Thus, in general Force and Motion are like two sides of a coin. Example: the interdependence of force and motion is seen in throwing a ball and catching a ball. Let us first understand the meaning of force and motion individually and then the relation between them . Let's Go !
In physics, we come across various motions of a body. What causes the motion of an object? The answer is a force. What stops an object under motion? The answer is Force. Thus, in general Force and Motion are like two sides of a coin. Example: the interdependence of force and motion is seen in throwing a ball and catching a ball. Let us first understand the meaning of force and motion individually and then the relation between them. Let's Go !
In physics, we come across various motions of a body. What causes the motion of an object? The answer is a force. What stops an object under motion? The answer is Force. Thus, in general Force and Motion are like two sides of a coin. Example: the interdependence of force and motion is seen in throwing a ball and catching a ball. Let us first understand the meaning of force and motion individually and then the relation between them. Let's Go !
In physics, we come across various motions of a body. What causes the motion of an object? The answer is a force. What stops an object under motion? The answer is Force. Thus, in general Force and Motion are like two sides of a coin. Example: the interdependence of force and motion is seen in throwing a ball and catching a ball. Let us first understand the meaning of force and motion individually and then the relation between them. Let's Go !
In physics, we come across various motions of a body. What causes the motion of an object? The answer is a force. What stops an object under motion? The answer is Force. Thus, in general Force and Motion are like two sides of a coin. Example: the interdependence of force and motion is seen in throwing a ball and catching a ball. Let us first understand the meaning of force and motion individually and then the relation between them. Let's Go !
Pillow fights are a lot of fun. Pillows are usually filled with soft, fluffy stuffing, like feathers. Feathers are ideal for pillow fights because they have a low density - they don't hurt much when you swing a pillow filled with them at your friend. In this lesson, we will learn about density and observe the density of objects like feathers, cotton candy and bricks. Learn about density and the formula to calculate the density of matter. Explore the dimensions of density, which are the mass of the substance and the volume it occupies. Finally, explore how density contributes to whether an object is heavy or not !
Pillow fights are a lot of fun. Pillows are usually filled with soft, fluffy stuffing, like feathers. Feathers are ideal for pillow fights because they have a low density - they don't hurt much when you swing a pillow filled with them at your friend. In this lesson, we will learn about density and observe the density of objects like feathers, cotton candy and bricks.
Learn about density and the formula to calculate the density of matter. Explore the dimensions of density, which are the mass of the substance and the volume it occupies. Finally, explore how density contributes to whether an object is heavy or not !
Pillow fights are a lot of fun. Pillows are usually filled with soft, fluffy stuffing, like feathers. Feathers are ideal for pillow fights because they have a low density - they don't hurt much when you swing a pillow filled with them at your friend. In this lesson, we will learn about density and observe the density of objects like feathers, cotton candy and bricks.
Learn about density and the formula to calculate the density of matter. Explore the dimensions of density, which are the mass of the substance and the volume it occupies. Finally, explore how density contributes to whether an object is heavy or not !
Pillow fights are a lot of fun. Pillows are usually filled with soft, fluffy stuffing, like feathers. Feathers are ideal for pillow fights because they have a low density - they don't hurt much when you swing a pillow filled with them at your friend. In this lesson, we will learn about density and observe the density of objects like feathers, cotton candy and bricks. Learn about density and the formula to calculate the density of matter. Explore the dimensions of density, which are the mass of the substance and the volume it occupies. Finally, explore how density contributes to whether an object is heavy or not !