what is elastic and inelastic collision what is elastic and inelastic collision what is elastic and inelastic collision
The final velocities of the gliders after a perfectly elastic collision will also be equal and opposite to their initial velocities. This is due to the conservation of momentum and kinetic energy in elastic collisions.
In physics, momentum is a key concept that describes the motion of objects. It is the product of an object's mass and velocity. In the context of x vt physics, momentum is used to analyze the motion of objects in terms of their velocity and time. It helps in understanding how objects move and interact with each other, and is crucial in predicting the outcomes of collisions and other interactions between objects.
The unit of momentum in terms of m2kg/s is kilogram meter per second squared (kgm/s).
The formula for calculating angular momentum in terms of kilogram meters squared per second is: Angular Momentum Mass x Velocity x Radius
In case of elastic deformation when the applyed stress disappears, the material returns in its initial form. In case of plastic deformation a remaining shape change occurs. Until a stress value - what is property of individual material - called flow stress, the material deforms elastically, afterwards plastically. You can find information about it for example in the following page: http://www.virginia.edu/bohr/mse209/chapter6.htm ## Please somebody correct my awful english, thanx ##
Diamonds are considered to be inelastic in terms of their physical properties, meaning they do not easily deform or stretch when subjected to external forces.
In an inelastic graph, price changes have a small impact on quantity demanded, while in an elastic graph, price changes have a significant impact on quantity demanded.
The final velocities of the gliders after a perfectly elastic collision will also be equal and opposite to their initial velocities. This is due to the conservation of momentum and kinetic energy in elastic collisions.
In physics, momentum is a key concept that describes the motion of objects. It is the product of an object's mass and velocity. In the context of x vt physics, momentum is used to analyze the motion of objects in terms of their velocity and time. It helps in understanding how objects move and interact with each other, and is crucial in predicting the outcomes of collisions and other interactions between objects.
The unit of momentum in terms of m2kg/s is kilogram meter per second squared (kgm/s).
Relatively elastic
"Elasticity of demand" is the economic term for how much of something people want. If demand is inelastic, people will buy the same amount at any price (think insulin--a diabetic needs it and so will buy it at any price.). If demand is elastic, the price greatly affects how much people will buy (concert tickets for a B-rate band: the higher the price, the less people will come). This is very generalized: the topic is very complex and confusing when explained in economic terms. Recently the demand for gas, which used to be inelastic, has become elastic. The price has raised too high for people to keep buying what they usually did, and so travel plans have been curtailed due to this and less gas has been puchased. Even more recently, gas prices have lowered again, but demand cannot yet be said to be inelastic again. Altogether, inelastic demand does not affect supply, while elastic demand does.
In a normal perfectly inelastic collision, objects stick together, and there is damage done. Kinetic energy is not conserved, but momentum is. However, an explosion is a perfectly inelastic collision in reverse, because instead of having objects coming at each other and sticking together, the objects are already stuck together, and fly apart. The equation for this is [m1 v1 + m2 v2] = [m1 + m2]*v The damage done would be the chemical reaction involved. Atoms were at first stuck together, but there was a chemical reaction [aka "damage" because atoms were changed], and then the atoms fly apart. Thus, a perfectly inelastic collision in reverse. Be careful how you use the physics terms; it's not an inelastic collision [that's when objects impact then part].
The formula for calculating angular momentum in terms of kilogram meters squared per second is: Angular Momentum Mass x Velocity x Radius
the terms brittle , malleable , elastic , and flexible refer to what mineral
In case of elastic deformation when the applyed stress disappears, the material returns in its initial form. In case of plastic deformation a remaining shape change occurs. Until a stress value - what is property of individual material - called flow stress, the material deforms elastically, afterwards plastically. You can find information about it for example in the following page: http://www.virginia.edu/bohr/mse209/chapter6.htm ## Please somebody correct my awful english, thanx ##
In science terms, momentum refers to the quantity of motion an object has. It is calculated as the product of an object's mass and its velocity. Momentum is a vector quantity, meaning it has both magnitude and direction.