5.2 – Conservation of Energy

... Kinetic Energy gets ball moving Kinetic Energy converted into GPE as ball rises GPE greatest at peak of path GPE converted back to Kinetic Energy as it moves downward and increases speed ...

springs

... •  If the spring is stretched within its elastic limit, it “springs” back to its “rest point”. •  If a spring is stretched beyond its elastic limit, it becomes deformed. ...

REACTION RACER REACTION RACER

... For example, if you inflated your balloon to a diameter of two inches, your racer wouldn’t have moved very far. The energy available could only move it a few feet. But if you inflated your balloon to a diameter of six inches, there was a lot more energy available, and your racer would have moved muc ...

S8P2 Students will be familiar with the forms and transformations of

... Explain energy transformation in terms of the Law of Conservation of Energy • The Law of Conservation of Energy states that energy cannot be created or destroyed but can only be changed form one form into another. – Example: Your car changes chemical energy (gas) into mechanical energy (energy of m ...

Energy

... joules (J) or newton-meters (N•m) ...

Energy 1

... • Convection currents transfer heat from warmer to cooler parts of a fluid. • Convection currents create rain forests and deserts over different regions (parts) of Earth. ...

Energy - Riverside Local Schools

... groups based on the idea of “energy”.  You may have as many or as few groups as you like.  Be able to explain your reasoning for the groups.  Each group must contain more than one card.  All the cards must be used. Record which cards you placed in which groups on a piece of paper! ...

15.13 Energy Conservation Problems

... Energy Conversion and Conservation: energy can be changed from one form to another. The process of changing energy from one form to another is call energy conversion. For example, a light bulb changes electrical energy into thermal energy (heat) and electromagnetic energy (light). The law of conserv ...

Period 6/7

... THE QUANTITY OF HEAT NEEDED TO RAISE THE TEMPERATURE OF 1g OF ANY SUBSTANCE 1ºC. Resistance to changes in temperature. 26. Since liquid water has the highest specific heat naturally occurring substances, explain why the ocean temperatures are cool on the first day summer. ...

Potential and kinetic energy

... includes visible light, x-rays, gamma rays and radio waves. Light is one type of radiant Chemical Energy is energy stored in the bonds energy. Sunshine is radiant energy, which of atoms and molecules. Batteries, biomass, provides the fuel and warmth that make life on petroleum, natural gas, and coal ...

ENERGY STUDY GUIDE

... 31. An example of chemical potential energy is the energy of 32. An example of gravitational potential energy is 33. An example of elastic potential energy is 34. The energy of a ball flying through the air is 35. The main type of energy of stereos and computers is 36. Mass times gravitational accel ...

Missing two activities

... Matter also has many phases like solid, liquid, gas, plasma, amorphous, liquid crystal, etc. ...

Forms of Energy

... Potential energy stored in chemical bonds. Food Fire Cracker Stomach Battery ...

Physical Science Packet 19: Energy Due: May 28th _____/ 25

... energy as the result of its position. For example, the heavy ball of a demolition machine is storing energy when it is held at an elevated position. This stored energy of position is referred to as potential energy. PE = mass • 9.8m/s2 • height The Law of Conservation of Energy When you turn on an e ...

notes

... particles of a substance).  Remember that all matter is made up of particles too small to be seen (5th grade).  As heat energy is added to a substance, the temperature goes up indicating that the particles are moving faster. The faster the particles move, the higher the temperature.  Material (wo ...

Progjectile, cirualur and

... transformations, and explain them using the law of conservation of energy E2.2 conduct laboratory inquiries or computer simulations involving mechanical waves and their interference (e.g., using a mass oscillating on a spring, a mass oscillating on a pendulum, the oscillation in a string instrument) ...

Chapter 4 Section 2 Notes AIM: Describe how energy can be

... 1. The total amount of energy in a system never changes. The Law of Conservation of Energy states that energy cannot be created or destroyed. 2. Sometimes it is difficult to see the Law of Conservation of Energy at work. 3. Friction and air resistance cause some of the mechanical energy of systems t ...

Types of Energy - Science with Ms. C

... motion of the particles in a substance. • All matter is made up of atoms (particles) that move faster when they heat up. The faster the particles move, the higher the temperature. • Heat energy is the transfer of thermal energy. • Heat energy always moves from hotter objects to cooler objects. ...

Slide 1

... Heat energy: energy that comes from the random motion of atoms and molecules in any substance. Gravitational energy: the potential energy an object has because of how far away it is from the ground. Kinetic energy: the energy of motion. ...

Work and Energy Study Guide - Ms. Gamm

... b) Students should understand and be able to apply the work-energy theorem, so they can: (1) Calculate the change in kinetic energy or speed that results from performing a specified amount of work on an object. (2) Calculate the work performed by the net force, or by each of the forces that make up ...

The Sun March 2 − We know the most about one star

... You are not weighing the energy. Helium is a lighter gas. Some of the mass changed into energy. The balance is faulty. ...

energy 1 - eduBuzz.org

... By using more energy efficient systems, such as light bulbs ...

Thermochemistry Ch. 20

... • If you are going for a long hike what food would you bring? ...

PE and KE Notes - Northwest ISD Moodle

... is measured by how much is work done to put an object in motion or to rest. Kinetic Energy depends on Mass and Speed. • A basketball player has kinetic energy. The movements that she does show the energy that is being displayed while she is moving. • When you are running, walking, or jumping, your b ...

Types and Forms of Energy

... • Energy contained in the nucleus of an atom • Nuclear energy is released when nuclei are split apart into several pieces, or when they are combined to form a single, larger nucleus ...

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Zero-energy building

A zero-energy building, also known as a zero net energy (ZNE) building, net-zero energy building (NZEB), or net zero building, is a building with zero net energy consumption, meaning the total amount of energy used by the building on an annual basis is roughly equal to the amount of renewable energy created on the site. These buildings consequently do not increase the amount of greenhouse gases in the atmosphere. They do at times consume non-renewable energy and produce greenhouse gases, but at other times reduce energy consumption and greenhouse gas production elsewhere by the same amount.Most zero net energy buildings get half or more of their energy from the grid, and return the same amount at other times. Buildings that produce a surplus of energy over the year may be called ""energy-plus buildings"" and buildings that consume slightly more energy than they produce are called ""near-zero energy buildings"" or ""ultra-low energy houses"".Traditional buildings consume 40% of the total fossil fuel energy in the US and European Union and are significant contributors of greenhouse gases. The zero net energy consumption principle is viewed as a means to reduce carbon emissions and reduce dependence on fossil fuels and although zero-energy buildings remain uncommon even in developed countries, they are gaining importance and popularity.Most zero-energy buildings use the electrical grid for energy storage but some are independent of grid. Energy is usually harvested on-site through a combination of energy producing technologies like solar and wind, while reducing the overall use of energy with highly efficient HVAC and lighting technologies. The zero-energy goal is becoming more practical as the costs of alternative energy technologies decrease and the costs of traditional fossil fuels increase.The development of modern zero-energy buildings became possible not only through the progress made in new energy and construction technologies and techniques, but it has also been significantly improved by academic research, which collects precise energy performance data on traditional and experimental buildings and provides performance parameters for advanced computer models to predict the efficacy of engineering designs. Zero Energy Building is considered as a part of smart grid. Some advantages of these buildings are as follow: Integration of renewable energy resources Integration of plug-in electric vehicles Implementation of zero-energy conceptsThe net zero concept is applicable to a wide range of resources due to the many options for producing and conserving resources in buildings (e.g. energy, water, waste). Energy is the first resource to be targeted because it is highly managed, expected to continually become more efficient, and the ability to distribute and allocate it will improve disaster resiliency.

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Zero-energy building