Total distance travelled, divided by the time taken.
The average speed of the particle is 30 km/h. This is calculated by dividing the distance traveled (30 km) by the time taken to travel that distance (1 hour).
The average sneeze speed of a human is around 100 miles per hour.
The average speed of a sneeze is about 100 miles per hour.
The average speed is 1.023 miles per hour.
To find the average speed, add up all the speeds and then divide by the number of speeds given. (45 + 37 + 34 + 40) / 4 = 39 mph. Therefore, the average speed of the cars is 39 mph.
"temperature"
Yes, it is possible. For example, if a particle moves back and forth between two points with different speeds, such that the time spent at each point is unequal, the average speed would not be zero even though the particle's speed is zero at each point.
The average particle speed increases.
The general tendency is for the average speed of particles to increase as temperature increases.But please note that temperature can't be DEFINED simply as the average speed; it is more closely related to the average ENERGY per particle. And the energy for each particle depends on the SQUARE of the speed; but it also depends on the mass of the particle.
The average amount of energy of motion of each particle of a substance is called kinetic energy. It is related to the speed and mass of the particles.
Substances with a large amount of thermal energy have higher average speeds of particle motion. This is because thermal energy increases the kinetic energy of particles, causing them to move faster. The average speed of particle motion can be quantified using temperature, where higher temperatures correspond to higher average speeds of particles.
In that case, basically no force acts on the particle, and the particle moves at a constant speed. This constant speed may, or may not, be zero.
The distance, expressed in inches, is(1.2) x (the particle's average speed, in feet per minute) .
Yes, it is possible. Average velocity takes into account both the magnitude and direction of motion, and can be zero if the particle moves back and forth. However, average speed only considers the total distance travelled over time, and can be non-zero even if the velocity is constantly changing.
The linear speed of the particle moving on a circular track can be found using the formula v = r * ω, where v is the linear speed, r is the radius of the circle, and ω is the angular speed of the particle.
As the speed of the particles increase, it causes them to collide with the other particles in which they are reacting with more frequently, increasing the reaction rate.
The speed of a gamma particle is approximately the speed of light, which is around 299,792 kilometers per second in a vacuum.