Kinetic energy is the energy of motion, while thermal energy is the total energy of particles in a substance. Kinetic energy directly affects the motion of particles, while thermal energy affects the temperature of a substance. As particles move faster due to increased kinetic energy, they also gain thermal energy, leading to an increase in temperature.
The state of matter of a substance is primarily determined by the arrangement and movement of its particles. Factors such as temperature and pressure can influence the state of matter by causing particles to move differently and form various structures, resulting in the different states - solid, liquid, and gas.
Particles always have some form of kinetic energy due to their motion. At absolute zero temperature, particles would have minimal kinetic energy but would still have some due to quantum effects.
As temperature increases, the movement and disorder of particles also increase, leading to higher entropy. This is because higher temperature provides more energy for particles to move around and interact in a more chaotic manner, increasing the overall disorder and randomness in a system.
Magnetic force is the force that acts on a moving charged particle in a magnetic field, while electric force is the force that acts on a charged particle due to the presence of an electric field. The main difference between the two is that magnetic force only affects moving charged particles, while electric force can act on both moving and stationary charged particles. In terms of their effects on charged particles, magnetic force can change the direction of the particle's motion, while electric force can change both the direction and speed of the particle. Additionally, electric force is typically stronger than magnetic force for most everyday situations.
No, particles that make up matter are not always stationary. At the atomic and subatomic levels, particles are constantly in motion due to factors like thermal energy and quantum mechanical effects. This motion contributes to properties like temperature and pressure in matter.
1.All matter is made up of particles. 2.All particles have spaces between them. 3.Particles are always in motion. 4.Particles have attraction forces. 5.Temperature effects the speed in which particles move. 6.All particles of one substance are identical
The state of matter of a substance is primarily determined by the arrangement and movement of its particles. Factors such as temperature and pressure can influence the state of matter by causing particles to move differently and form various structures, resulting in the different states - solid, liquid, and gas.
The higher the tempreature, the higher the rate of reaction, however 37 degrees (body temperature), celcius is the optinum temperature, then after this point the enzymes will start to denature. this is due to the fact that the particles gain kenetic energy and subsequently move around more vigirously. Thus, the chance of there been a successful collision between the enzyme and substrate molecule increases as reacting particles will collide more frequently with increased kinetic energy.
effects are what happens when you have something symptoms are something that makes you think you have something
Maya is for animation and after effects are for visual effects Maya can be alot more complecated for you to use
The electromagnetic force between two charged particles is attractive if the charges are opposite and repulsive if they are the same. The strength of the force is determined by the magnitude of the charges and the distance between them, following Coulomb's law. This force is responsible for the interaction between charged particles and is fundamental to understanding the behavior of electrically charged objects.
Particles always have some form of kinetic energy due to their motion. At absolute zero temperature, particles would have minimal kinetic energy but would still have some due to quantum effects.
i think quantum effects is temperature dependent, the question will be at which temperature do we expect quantum effects to become important. The classical theory fails at a certain temperature then quantum theorie should be used. Classical statistical mechanics tells us that the distance between particles in a gas under standard-conditions is of the order of 10∙10-9 m=10nm. In order to observe quantum mechanical effects in such a gas we have to reduce the temperature drastically. Zero K is the lowest possible temperature, since it corresponds to particle velocity of zero...
That's the difference between delicious & not!!!! LOL!!
As temperature increases, the movement and disorder of particles also increase, leading to higher entropy. This is because higher temperature provides more energy for particles to move around and interact in a more chaotic manner, increasing the overall disorder and randomness in a system.
Explosion
Latent heat is the energy absorbed or released during a phase change, such as melting or boiling, without affecting the temperature of the substance. Sensible heat, on the other hand, is the energy absorbed or released that does cause a change in temperature.