cos1+2+3

... – moving in a slow dance around the center of galaxies. ...

REACTION RACER REACTION RACER

... from one type to another. For example, the food you ate for lunch can be used as fuel to make you run faster, or stored in the form of fat for energy you need later. ...

Types of Energy

... ●Heat energy always moves from hotter objects to cooler objects. Radiant energy ●Energy which is transferred through electromagnetic waves such as visible light, ultraviolet light or X-rays. ●Solar energy is a type of radiant energy. ○Green plants use solar energy during photosynthesis. ○Most of the ...

How do we describe motion? - Department of Physics and Astronomy

... Newtonian Gravity Gives us the Masses of Planets in Distant Solar Systems ...

Slide 1

... (gravitational potential energy). 2. Energy can be stored by compressing or stretching a spring (elastic potential energy). 3. Energy can be stored in the chemical bonds of a compound (chemical potential energy). 4. Energy can be stored in the form of electricity (electrical potential energy). ...

News Release - האוניברסיטה העברית

... Universe billions of years ago has been formulated by Hebrew University of Jerusalem cosmologists. The theory takes issue with the prevailing view on how the galaxies came to exist. The new theory, motivated by advanced astronomical observations and based on state-of-the-art computer simulations, ma ...

Kinetic and Potential Energy Most of us think of energy as the power

... move, or even stay alive! To understand energy and how it helps make life possible, we must learn that there are two kinds of energy: kinetic and potential. Kinetic “Kinetic” is another word for “motion.” Scientists use it to define energy that is moving. For example, waves in the ocean have kinetic ...

Outline - Picnic Point High School

pengelolaan dan konservasi sdal – konservasi energi

... Energy cannot be created or destroyed; it may be transformed from one form into another, but the total amount of energy ...

Action-at-a-Distance Forces Contact Forces

... Hands-on Science, Grades 6-8 Dr. Michael Donaldson Lesson 2: Energy and Motion September 16, 2010 SCOPE AND SEQUENCE In the previous workshop, we learned about matter, which is one of the most fundamental concepts in physical science. An equally fundamental concept is that of energy. Energy is defin ...

The Universe and Galaxies - West Jefferson Local Schools

... - Of what is the universe made / composed? - Dark matter – theoretical unseen and undetectable mass that adds to the gravity of a galaxy - Dark energy – theoretical energy that might be causing accelerated expansion of the universe ...

S8P2 Students will be familiar with the forms and transformations of

... energy, gravitational energy, heat energy, and electric and magnetic energy. • Energy cannot be created or destroyed, but only changed from one form into another. • Transformations of energy usually release some energy typically in the form of heat. • Temperature changes as heat is transferred from ...

energy Notes File

... molecules. The vibrating molecules move tiny bones in your ear. The message is then interpreted by the brain. Sound energy vibrates through matter; water, air…..  Ex: ...

What is a wave?

... Melting is the process by which heat is added to water (or any liquid substance) in its solid state such as ice. The ice then turns into liquid water. ...

Name: ______ Date:____________ Period:______ Chapter 12

Matter and Energy

...  Made of multiple substances whose parts can be seen.  Portions have different composition sand properties.  NOT uniform throughout ...

TOPIC: Energy AIM: What are the 5 forms of energy?

... 1. What is energy. How is it measured? 2. Describe the Law of Conservation of Energy. 3. Explain the difference between kinetic energy and potential energy. 4. What can cause an increase in kinetic energy? 5. Describe the relationship between height and gravitational potential energy. 6. Describe th ...

Slide 1

... that the expansion of the Universe has been accelerating for about the past 5000 million years. Before this discovery, the expansion of the Universe was expected to be decelerating due to the attractive gravitational forces of galaxies on each other. Therefore there appears to be some unknown repuls ...

work & energy presentation_ch05

... • List five examples of things you have done in the last year that you would consider work. • Based on these examples, how do you define work? ...

Question paper

... 2 Which of the following statements is correct? A Electrostatic forces have a much longer range than gravitational forces. B Gravitational forces have a much longer range than electrostatic forces. C Gravitational and electrostatic forces both obey an inverse square law. D Gravitational and electros ...

A05715 ANY CALCULATOR Page 1 TURN OVER School of Physics

... Describe the lighthouse model for a pulsar, and indicate how the model is consistent with observations. ...

Section 19.3

Kinetic Energy - WordPress.com

... ▪ An object can have an energy due to its position. This is a potential energy. ▪ There are different types of potential energy. Some examples are gravitational potential energy (the energy stored in the gravitational field), elastic potential energy (the energy stored in an elastic object), and ele ...

Potential Energy - Mona Shores Blogs

... If any of the three types of energy are not present, just eliminate that type from the correct location in the equation. ...

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Dark energy

In physical cosmology and astronomy, dark energy is an unknown form of energy which is hypothesized to permeate all of space, tending to accelerate the expansion of the universe. Dark energy is the most accepted hypothesis to explain the observations since the 1990s indicating that the universe is expanding at an accelerating rate. Assuming that the standard model of cosmology is correct, the best current measurements indicate that dark energy contributes 68.3% of the total energy in the present-day observable universe. The mass–energy of dark matter and ordinary matter contribute 26.8% and 4.9%, respectively, and other components such as neutrinos and photons contribute a very small amount. Again on a mass–energy equivalence basis, the density of dark energy (6.91 × 10−27 kg/m3) is very low, much less than the density of ordinary matter or dark matter within galaxies. However, it comes to dominate the mass–energy of the universe because it is uniform across space.Two proposed forms for dark energy are the cosmological constant, a constant energy density filling space homogeneously, and scalar fields such as quintessence or moduli, dynamic quantities whose energy density can vary in time and space. Contributions from scalar fields that are constant in space are usually also included in the cosmological constant. The cosmological constant can be formulated to be equivalent to vacuum energy. Scalar fields that do change in space can be difficult to distinguish from a cosmological constant because the change may be extremely slow.High-precision measurements of the expansion of the universe are required to understand how the expansion rate changes over time and space. In general relativity, the evolution of the expansion rate is parameterized by the cosmological equation of state (the relationship between temperature, pressure, and combined matter, energy, and vacuum energy density for any region of space). Measuring the equation of state for dark energy is one of the biggest efforts in observational cosmology today.Adding the cosmological constant to cosmology's standard FLRW metric leads to the Lambda-CDM model, which has been referred to as the ""standard model of cosmology"" because of its precise agreement with observations. Dark energy has been used as a crucial ingredient in a recent attempt to formulate a cyclic model for the universe.

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Dark energy