What happens when an unstoppable force meets an immovable object? How can you solve the hypothesis when unstoppable force meets an immovable object? Who has solved the scientific paradox?
The amount of space an object takes up is called its volume. Every matter has a mass and a volume. Every matter can be in four states only: Plasma, gas, liquid and solid. When something is in a solid state, it comes with a certain shape and volume. The volume refers to the amount of space that an obRead more
The amount of space an object takes up is called its volume. Every matter has a mass and a volume. Every matter can be in four states only: Plasma, gas, liquid and solid. When something is in a solid state, it comes with a certain shape and volume.
The volume refers to the amount of space that an object occupies in it. Various matters in solid state are chair, table, bed, wood, and pen. But when you place a liquid on a table or chair, it flows down without assuming or taking any shape. That is why liquid usually takes the place of a container in which you pour it down. Thus, liquid has a certain volume but it tends to appear in an indefinite size and shape.
Similarly, if an object is in its gaseous state, it won’t have a definite volume or shape. Thus, gas occupies a volume but it doesn’t come with a definite shape.
How can you define the states of matter in water?
Water is one of those omnipresent substances that come with all states of matter. Ice is in its solid state, water appears in its liquid form, and steam appears in its gaseous form. Solids come with a definite shape and volume, while liquid particles are tied together, and gas particles remain dispersed inside a container.
The volume of a liquid is measured in liters. When you want to measure the volume of a three-dimensional substance or solid, measure it in m3 or cubic meter.
How to Measure the volume of liquids, solids, and gases?
In the case of gases in a container, the volume of a gas is equal to the internal volume of the container. You have to measure liquids in containers, in which the volume takes up the internal shape of the container.
Volume Vs Mass: What You Should Know About Them?
Volume and mass are two different things. Volume refers to the space occupied by a substance while mass is the amount of matter contained in an object.
When it comes to a container, volume is the capacity that it can retain. It has nothing to do with the amount of space in it. The standardized unit of volume is m³. Using the SI unit, you can easily calculate the volume of a substance or liquid.
As per the metric system, 1 litre is equal to 0.001 metres3
What is the amount of space an object takes up?
The correct answer is volume. A volume is the standard measurement technique through which you can calculate the amount of space an object takes up. The easiest way to calculate the volume of an object is by using the following formula:
Length x Breadth x Height.
Any matter that you can touch, see, and hold is an object. They have a mass and a volume.
Can you calculate the volume of air?
If the room has a definite shape, you can calculate the volume of air using the following formula:
Volume = length × width × height (LBH)
Suppose, if the length is 4.0-m, breadth is 3.5 m, and height is 2.0
The volume will be = 4.0 x 3.5 x 2.0 = 28
Thus, the amount of space an object takes up is its volume. So whenever you wish to know the amount of space a particular object takes up, you have to calculate its volume. The standardized unit of volume, which is universally recognized, is cubic meter or m3.See less
We don’t have any documented proof about a condition when an unstoppable force charged with infinite energy meets an immovable object which is not charged with boundless energy. In fact, this is a hypothetical case of science. This is more so as we don’t have records of this situation or case everRead more
We don’t have any documented proof about a condition when an unstoppable force charged with infinite energy meets an immovable object which is not charged with boundless energy.
In fact, this is a hypothetical case of science. This is more so as we don’t have records of this situation or case ever happening. In other words, it has never happened.
Immovable Object 5e Means
A stationary, unyielding force or object. I was sitting in the car, immobile and alone, as I watched her walk away.
An unstoppable force meets an immovable object
On examining the velocity or speed of an object, we find that there is nothing that cannot be stopped or made to stop due to circumstantial conditions. As a result, when such an object hits an immovable object, its speed or velocity comes to an end.
When a bullet is fired, this object stops losing its velocity or speed on hitting an immovable object be it a wall or tree. The immovable item, when hit by an unstoppable force, does not change its position or location.
For all practical purposes, we can say this is an academic subject relating to velocity or speed. But in reality, there is no unstoppable force that cannot be stopped with physical counter-force. Hence, this is a hypothesis.
What happens when an unstoppable force meets an immovable object?
Totally paradoxical in nature, the skepticism is raised on the scientific ground that nothing practically can be unstoppable. Hence, the issue of an immovable object being hit by an unstoppable force just does not arise, at all.
In fact, the basic doubt about the veracity of this arises out of the fact that how an object can be unstoppable? Even if the object is excessively powerful, charged by infinite electricity or power or force, it would stop when it hit an immovable object.
In such a case, that unstoppable will lose its strength or speed on hitting or colliding with an object which is stationary or standing in one position, say a mountain, a tree or a house. The speed of the object will end in such a case of collision.
Unstoppable force: A hypothesis of Science
Here the aspect of the mere hypothesis of an object being unstoppable due to its inherent force comes to light. As a theory of science, it seems improbable. This is more so as we don’t have any recorded example of it.
Till now, we find all objects moving at a tremendous speed lose its velocity on hitting an immovable object. This is more an academic issue to study velocity in its real perspective than a reality.
The primary reason for it, as explained above, is the fact that no object around the earth is unstoppable. Everything can stop when its inherent energy or electricity comes to an end. To exemplify, an aircraft or moving car would come to a stop when its fuel exhausts. When it collides with an immovable object, the movable object will destroy and come to an end with its speed getting zeroed.
This is the normal theory of all speeding objects. We don’t have any historical evidence to suggest that an unstoppable force (other than planets in the galaxy moving on their axis and orbit with tremendous force that cannot be stopped) ever existed in any man-made scientific form.
In fact, an object is made to move or acquire speed or motion with the addition of external force, power or pull. But the force will lose its intensity if the movement of the external force or pull is stopped. It will no more be a moving object with speed. Subsequently, the question of an object being unstoppable does arise at all.
To conclude, we can say velocity depends on external force. It is this external force that adds speed to an object. But this object cannot move eternally. Its speed will come to an end once the external assistance like fuel in the case of cars is exhausted. Hence, this is a purely hypothetical issue that hardly has any answer with scientific base.See less