Energy of motion, proportional to the total weight of the vehicle and the square of its speed. Thus if a vehicle's weight doubles its KE also goes up two times; but if its speed doubles its KE increases by two squared, ie four times. See 'Recovery - snatch-towing'
is the energy a substance possesses by virtue of its velocity of motion. It enters into dynamic and ejector compressor calculations, but seldom into positive displacement problems.
kin-et-ick The kind of energy in moving things.
Of, relating to, or produced by motion.
Energy due to the movement of objects with mass.
The energy something possesses due to its motion, depending on mass and velocity.
The energy relating to, or caused by, motion.
Energy that matter has because of its mass and speed or velocity. Compare potential energy.
energy of an object because of its motion
Energy that is due to motion.
energy that a moving object has due to its motion; energy of motion
Energy that a body possesses by virtue of its motion.
Energy inherent in movement.
Kinetic energy is used in flywheels.
1) energy of motion, 2) the energy that a moving object has, 3) the quantity of energy equal to half mass times velocity squared
energy of motion, (1/2)mv2.
Energy of moving particles such as atoms or molecules. The more heat added to particles, the more kinetic energy or motion they have.
Energy an object has because of its mass and velocity. Objects that don't move have no kinetic energy. (Kinetic Energy=0.5* mass*velocity2. Back to .
Energy due to motion. Proportional to an objects mass and the square of its velocity. As a car accelerates, energy from burning gasoline is converted into kinetic energy. To slow a car down, the kinetic energy must be converted into heat by the brakes.
Term used in physics, this term basically mean the energy being transferred from the archer, to the bow and then on to the arrow. More kinetic energy basically means more penetration, thus a more humane kill.
Energy created by the very rapid movement of small molecules or ions in a liquid.
Energy that moving objects have. Energy
Energy of motion. Proportional to the mass and to the velocity squared
Energy dut to motion of an object.
energy of a moving object, found nonrelativistially as mv2/2
Energy associated with movement; for example, the wind or a rock rolling down a hill.
Energy possessed by an object because of its motion.
the energy contained within an object by virtue of its movement in relationship to another object.
Energy possessed by a moving body of matter, such as water, as a result of its motion.
The energy resulting from the random movement of molecules.
The mechanical energy possessed by a body due to its motion. It may be calculated from the formula: Kinetic energy = 1/2 mass x (velocity)ý.
Energy which a moving body has because of its motion, dependent on its mass and the rate at which it is moving.
The energy an object has due to it's motion. Such an example is the energy a car posses when it is moving.
That stored in a body by virtue of its motion.
Energy contained in moving objects such as a rock rolling down a hill, the wind blowing through the trees, or water flowing over a dam.
The energy of motion; the energy an object has as a result of its motion. Law - A statement that summarizes the results observed in an experiment that is repeated many times by many different scientists. A scientific law is widely accepted as true or as a fact.
When spirits use their energy to move objects, throw things, etc. This is very interesting phenomena, and personally, I have had rocks thrown at me by an unseen force, and have witnessed equipment actually being struck and broken by unseen forces.
the energy of a body resulting from its motion.
Energy associated with the state of motion. The translational kinetic energy of an object is given by the equation .
The type of energy associated with moving objects; the energy of motion. Kinetic energy is equal to the mass of the moving object times the square of the object's velocity, multiplied by 0.5.
the energy of a moving object (or mass).
It is the energy which is associated with motion.
Kinetic energy is the release of potential energy to create motion, ultimately to do work. An example of kinetic energy is the energy carried by wind.
An object's energy of motion; for example, the force of a falling body.
The use of motion to create and transmit power.
The energy associated with the motion of any object.
The energy of motion. Retracting spring - A spring used to return the brake shoes to the fully released position.
the energy of an object or parcel of fluid by virtue of its motion. Kinetic energy is proportional to mass and the square of the speed.
Energy possessed by virtue of an object's motion.
The energy inherent in a body due to its motion; with greater speed and mass, the kinetic energy increases.
Is the energy a substance possesses by virtue of its motion or velocity. Used primarily in calculations for dynamic and ejector type compressors ( 030)
kin-ET-ik EN-er-gee The energy of motion. 112
Energy due to motion. Wind and moving water have kinetic energy, which is converted to electrical energy by a wind or hydro turbine.
The energy possessed by a body in motion.
The energy an object possesses because of its motion. Cf. potential energy.
The energy of motion, observable as the movement of an object, particle, or set of particles.
The energy that a particle or an object possesses due to its motion or vibration.
The energy of motion of a moving body.
Kinetic energy is the energy of motion of an object; equal to the work it would do if it were brought to rest.
(kih- net-ik) [Gk. kinetikos, putting in motion] The energy of motion, which is directly related to the speed of that motion. Moving matter does work by transferring some of its kinetic energy to other matter.
The energy of an object resulting from motion and temperature, Formula F= ma.
The form of energy associatedwith the speed of an object. Its equation is: KE=1/2mv2(squared); or kinetic energy= ? mass x velocity squared. (It is obvious from the formula that increasing clubhead velocity has more potential for producing distance than increasing the clubhead weight.)
Energy available as a result of motion. (Kinetic energy is equal to one half the mass of the body in motion multiplied by the square of its speed.)
The energy of an object in motion.
The ability of a moving body to do work by virtue of its motion. The molecular motion of matter is a form of kinetic energy.
Energy associated with mass in motion, i.e., 1/2 rV2 where r is the density of the moving mass and V is its velocity.
a type of energy describing an object's motion. Kinetic energy is defined to be equal to 1/2 times the object's mass times the square of the velocity of the object.
A thermodynamic property. The energy associated with the mass and velocity of a body.
Energy associated with the motion of an object, equal to one half times the object mass times the object speed squared.
Energy due to motion that is added to a fluid either by rotating it at a high speed or by providing a catalyst in a direction of flow.
The force or 'energy' created by motion.
The energy of motion, found in a moving object.
The energy a body has by virtue of its motion. The kinetic energy is the work done by an external force to bring the body from rest to a particular state of motion
Energy that a body has as a result of its motion. Mathematically, it is defined as one-half the product of a body's mass and the square of its speed (KE = 1/2 * mass * velocity squared).
The energy of a mass resulting from its motion An object of mass m moving with a velocity v has kinetic energy / mv
The energy that a body possesses as a consequence of its motion, defined as one- half the product of its mass and the square of its speed, (1/2) The kinetic energy per unit volume of a fluid parcel is thus (1/2) 2, where is the density and the speed of the parcel. See potential energy.
Energy of motion. The faster an object moves the more kinetic energy it has.
Energy resulting from the motion of masses
Compare with potential energy. The energy an object possesses by virtue of its motion. An object of mass moving at velocity has a kinetic energy of ½mv2.
Energy of a mass m due to its motion with a speed v. E_kin=0.5mv^2
The energy of a mass in motion (e.g., pendulum swinging, spring unwinding).
Kinetic energy is energy associated with motion.
The energy possessed by a moving object. The formula for kinetic energy is 1/2 (mass) x (velocity)2.
The energy possessed by a body because of its motion, equal to one half the mass of the body times the square of its speed.
The mechanical energy that a body has by virtue of its motion.
The energy possessed by a moving body. The ability of a body to do work by virtue of its motion. Energy associated with motion.
The energy a body possesses as a consequence of its motion. The mathematical definition is 1/2 the mass multiplied by the velocity squared.
Energy due to the motion of an object.
the energy of motion, or energy in use
the energy something has because of its motion = 1/2×mass×velocity2.
The energy stored in moving water. When moving water stops suddenly, this kinetic energy is converted to potential energy and a brief pressure spike results. Back to glossary index.
The scientific force that 'powers' a coaster, it deals with gravity and inertia. It states that as kinetic energy is gained by going down the drop, the coaster has energy to propel itself.
The energy of motion; equivalent to one-half an objects mass multiplied by its velocity squared.
energy in motion. Kinetic energy is the greatest in gases and least in solids.
Kinetic energy is the energy of motion. An object which has motion - whether it be vertical or horizontal motion - has kinetic energy. There are many forms of kinetic energy - vibrational (the energy due to vibrational motion), rotational (the energy due to rotational motion), and translational (the energy due to motion from one location to another). KE = 1/2 * m * v2
The energy within a body that is a result of its motion.
Energy possessed by a body due to its own motion.
The energy of motion. Lag (thermal time) The delay between the construction of a thermal gradient and the achievement of equilibrium.
Energy being expended in performing work.
The energy inherent in a substance because of its motion, expressed as a function of its velocity and mass, or MV2/2.
The energy derived from a body in motion, which is equal to half the product of its mass and the square of its velocity.
Energy available as a result of motion that varies directly in proportion to an object's mass and the square of its velocity.
Kinetic energy is the energy that an object has because of its motion. An object's kinetic energy is equal to 0.5 times its mass times its velocity squared. In the metric system, kinetic energy is measured in joules, or kg-m2/s2.
The motion of material bodies and the forces and energy associated with any moving thing or movement.
The energy of motion, such as that of a flywheel.
The kinetic energy of an object is the extra energy which it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its current velocity. Having gained this energy during its acceleration, the body maintains this kinetic energy unless its speed changes.