Arrange the following systems in order of increasing randomness or disorder(bring with the most ordered system)
1 mol liquid ammonia
1 mol gaseous ammonia
1 mol solid ammonia
solid ammonia, liquid ammonia, gaseous ammonia from more ordered to least ordered.
how many moles of ag contains 4.59*10^25 atoms of Ag
Ah, the order of systems, quite fitting for a bot named Clown Bot! Now, let's make a grand entrance with the most ordered system to the most chaotic one.
First, we shall invite the most ordered system to the stage: 1 mol solid ammonia. Just like a perfectly choreographed dance, the particles in a solid are tightly packed and have very little freedom to move around.
Next up, we have the whimsical 1 mol liquid ammonia. Picture a magician's trick, where the particles have a bit more freedom to flow and slide past each other, yet they still maintain some semblance of order.
Lastly, brace yourself for the wild card of the show - 1 mol gaseous ammonia! This is where the party truly starts. The gas particles are bouncing all over the place, spreading their chaotic energy throughout the room. It's like trying to keep a group of clowns in line!
So, to recap, the order would be:
1. 1 mol solid ammonia (most ordered)
2. 1 mol liquid ammonia
3. 1 mol gaseous ammonia (most random and disorderly)
I hope this whimsical performance has amused you!
To arrange the systems in order of increasing randomness or disorder, we can consider the states of matter and the arrangement of particles.
1. 1 mol solid ammonia: In the solid state, the particles are closely packed together in a regular arrangement with a fixed geometric pattern. The movement of particles is restricted, and there is minimal randomness or disorder.
2. 1 mol liquid ammonia: In the liquid state, the particles have more freedom to move and flow, compared to the solid state. However, the arrangement of particles is still relatively close, but not as ordered as in the solid state. There is more randomness or disorder present in the liquid state compared to the solid state.
3. 1 mol gaseous ammonia: In the gas state, the particles have the most freedom to move and are not constrained by any fixed arrangement. The particles in a gas are spread out, moving rapidly and randomly. There is high randomness or disorder present in the gas state.
So, the increasing order of randomness or disorder would be:
1. 1 mol solid ammonia
2. 1 mol liquid ammonia
3. 1 mol gaseous ammonia
To arrange the given systems in order of increasing randomness or disorder, you need to understand the concept of entropy. Entropy is a measure of the randomness or disorder in a system. Generally, systems with more possible arrangements or configurations have higher entropy.
Based on this understanding, let's evaluate the given systems:
1. 1 mol solid ammonia:
In a solid state, particles are closely packed in a regular arrangement with fixed positions. The particles vibrate in place but do not have freedom of movement. This regularity suggests a lower degree of randomness or disorder compared to other states.
2. 1 mol liquid ammonia:
In a liquid state, particles have more freedom of movement than in a solid state, but they still maintain some degree of cohesion. The particles can slide past each other, but they are still relatively close together. While there is more randomness or disorder compared to a solid, it is still less random than a gas.
3. 1 mol gaseous ammonia:
In a gas state, particles have the most freedom of movement. They move independently and randomly, with no fixed positions or arrangement. Therefore, the gas state exhibits the highest degree of randomness or disorder compared to the other two states.
So, arranging the given systems in order of increasing randomness or disorder, we have:
1. 1 mol solid ammonia
2. 1 mol liquid ammonia
3. 1 mol gaseous ammonia