The FACTS of the "HARD" as the IDIOM of the language used by Kennedy and the translation to space suits.
by Henryk Szubinski
We choose to go to the Moon in this decade and do the other things, not because they are easy, but because they are hard; because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one we ...
from the: "We choose to go to the Moon " speech made by John. F. Kennedy ,president of the United States of America.
Basically, Kennedy also stated that the spaceships that he would employ to do space exploration would be very big. So the obvious question is that the infinite universe has some relations of the hardness of it and the weight of it. So that when , from Earth, the hardness outdoes the weight, the weight of it in space outdoes the hardness. So the answer is that to sense the weight , by astronautics, means to sense with the perception of the body as the link between the sense perception and the physical, and not so ,separate sense of weight, that something is so heavy beyond some specific point that it may be felt.
So i have included the wikipedia definition of heavy.
pages are from:
A dictionary of American Idioms (third edition) pages 172 to 173
from Barron's
1995.
A dictionary of American Idioms (third edition) pages 172 to 173
from Barron's
1995.
Kennedy may have related the following:
1) hard as nails= the feel of the spaceships from within the space suit.
2)Hard feeling of the attitude of being in space as spacesuit zero gravity or controlled gravity.
3)Hard fisted= the physical strength of the astronaut to move in the space suit.
4)Hard Going= to accept challenges of motion in the space suit.
5)Hardheaded= to want the exploration of space be the personal attitude of ones own makings as the STYLE of representation of the space suit.
6)Hardhearted= as the "want" to do it ones own way as translation of the inner character in the space suit.
7)Hard hitting= to be among others that share the same attitude as the space suit becomes the same expression.
8)Kennedy and his own hard line politics and being an astronaut, able to use it just as some groups represent the same attitude by way of their ware,in this case, the space suit..
9)Hard luck= to continue to explore space while others give up as to represent the spacesuit as alone.
10)Hardly any= that fewer and fewer will seek the increased difficulty of space missions when the reputation of the space suit becomes tougher and more dangerous.
11)Hardly ever= that we rarely see the type of astronaut that gives his heart and soul to lead but that this show of strength has true emotional strength.
12)Hard nosed= It may help in the long run to have this attitude so that directing attention to ones space suit saves lives in the long run.
13)Hard nut to crack= the facts that sometimes being stubborn results in the way that functions best may give new adaptations of the space suit by levels of experience.
14)Hard of hearing= to have the attitude of romance such as in space adventure films and being so ignorant that other astronauts wonder about their own strength and that this develops the reputation of stature that belongs to some group of hero type as the space suit.
15)Hard on=the facts of life and that some are more than others when comparing low quality space suits and high quality space suits.
16)Hard put=What separates one from another may be the flag of ones country but also one's name.
17)Hard Row to hoe=When an astronaut has worked so many space missions that he has been on the Moon ,then on Mars and then on one of the Moons of Jupiter and so on.This gives the extra sense perception of the character of the astronaut as his or her space suit may represent the whole Earth.
1) hard as nails= the feel of the spaceships from within the space suit.
2)Hard feeling of the attitude of being in space as spacesuit zero gravity or controlled gravity.
3)Hard fisted= the physical strength of the astronaut to move in the space suit.
4)Hard Going= to accept challenges of motion in the space suit.
5)Hardheaded= to want the exploration of space be the personal attitude of ones own makings as the STYLE of representation of the space suit.
6)Hardhearted= as the "want" to do it ones own way as translation of the inner character in the space suit.
7)Hard hitting= to be among others that share the same attitude as the space suit becomes the same expression.
8)Kennedy and his own hard line politics and being an astronaut, able to use it just as some groups represent the same attitude by way of their ware,in this case, the space suit..
9)Hard luck= to continue to explore space while others give up as to represent the spacesuit as alone.
10)Hardly any= that fewer and fewer will seek the increased difficulty of space missions when the reputation of the space suit becomes tougher and more dangerous.
11)Hardly ever= that we rarely see the type of astronaut that gives his heart and soul to lead but that this show of strength has true emotional strength.
12)Hard nosed= It may help in the long run to have this attitude so that directing attention to ones space suit saves lives in the long run.
13)Hard nut to crack= the facts that sometimes being stubborn results in the way that functions best may give new adaptations of the space suit by levels of experience.
14)Hard of hearing= to have the attitude of romance such as in space adventure films and being so ignorant that other astronauts wonder about their own strength and that this develops the reputation of stature that belongs to some group of hero type as the space suit.
15)Hard on=the facts of life and that some are more than others when comparing low quality space suits and high quality space suits.
16)Hard put=What separates one from another may be the flag of ones country but also one's name.
17)Hard Row to hoe=When an astronaut has worked so many space missions that he has been on the Moon ,then on Mars and then on one of the Moons of Jupiter and so on.This gives the extra sense perception of the character of the astronaut as his or her space suit may represent the whole Earth.
18)Hard sell= the type of astronaut that does not compromise himself by relations with corruption as not taking the credits of other types of space suit appearances.
19)Hard sledding = messages from the furthest places in the solar system and beyond that relay the difficulty and danger of being there by way of signal messages as being part of the way we appear in the space suit when we appear weakened.
20)Hard top= the space ship function to get the view in the position of the observer as the space suit may adapt to the various conditions of space.
21)Hard up= That space exploration gets so difficult that the astronauts will have to deal between them for survival so too including the need to exchange space suits.
22)Exposing oneself with other astronauts as making personal experiments to test the bounds of space survival , as 1= expansion of the astronaut body by inflation , and 2= compression of body values (as withing the spacesuit , that may simulate the same effect as gravity as 2 =and the same effects as 1 = inflation of space time within the spacesuit space.
So the interval = 1/2
=0.5 as biological and the reference to the hard=4 as delta change of the spacesuit having the previous functions of the 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22.
image credit
NASA.
19)Hard sledding = messages from the furthest places in the solar system and beyond that relay the difficulty and danger of being there by way of signal messages as being part of the way we appear in the space suit when we appear weakened.
20)Hard top= the space ship function to get the view in the position of the observer as the space suit may adapt to the various conditions of space.
21)Hard up= That space exploration gets so difficult that the astronauts will have to deal between them for survival so too including the need to exchange space suits.
22)Exposing oneself with other astronauts as making personal experiments to test the bounds of space survival , as 1= expansion of the astronaut body by inflation , and 2= compression of body values (as withing the spacesuit , that may simulate the same effect as gravity as 2 =and the same effects as 1 = inflation of space time within the spacesuit space.
So the interval = 1/2
=0.5 as biological and the reference to the hard=4 as delta change of the spacesuit having the previous functions of the 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22.
image credit
NASA.
more,
from
Wikipedia
date 2018
December 18
In science and engineering, the weight of an object is related to the amount of force acting on the object, either due to gravity or to a reaction force that holds it in place.[1][2][3]
Some standard textbooks[4] define weight as a vector quantity, the gravitational force acting on the object. Others[5][6] define weight as a scalar quantity, the magnitude of the gravitational force. Others[7] define it as the magnitude of the reaction force exerted on a body by mechanisms that keep it in place: the weight is the quantity that is measured by, for example, a spring scale. Thus, in a state of free fall, the weight would be zero. In this sense of weight, terrestrial objects can be weightless: ignoring air resistance, the famous apple falling from the tree, on its way to meet the ground near Isaac Newton, would be weightless.
The unit of measurement for weight is that of force, which in the International System of Units (SI) is the newton. For example, an object with a mass of one kilogram has a weight of about 9.8 newtons on the surface of the Earth, and about one-sixth as much on the Moon. Although weight and mass are scientifically distinct quantities, the terms are often confused with each other in everyday use (i.e. comparing and converting force weight in pounds to mass in kilograms and vice versa).[8]
Further complications in elucidating the various concepts of weight have to do with the theory of relativity according to which gravity is modelled as a consequence of the curvature of spacetime. In the teaching community, a considerable debate has existed for over half a century on how to define weight for their students. The current situation is that a multiple set of concepts co-exist and find use in their various contexts.[2]
my commentary:
The weight and the 9.8 escape velocity is the actual hardness of the object as it reaches space where the scale goes over into super heavy objects that maintain their special hardness and will maintain it no matter how long the object is in space.
So the measurement tool of the spring is actually ,the "springs eternal" of the function of the spring measuring it's own hardness as related to the super weight of it's own displacement beyond the limits of what science knows, and so Kennedy was right about it.
As such, it is infinite and it is eternal in terms of the "tipping of the scale" from Earth gravity and the exchange of hardness with weight and so too with the interstellar space and the exchange with hardness and weight and up to the intergalactic space as the exchange of hardness with weight.
So at some mega size, the object is lifting itself up and this is what Kennedy was saying when he mentioned super space ships in one of his his speeches.
So it becomes its own spring function.
more from
Wikipedia
date 2018
December 18
A spring scale or spring balance or newton meter is a type of weighing scale. It consists of spring fixed at one end with a hook to attach an object at the other. It works by Hooke's Law, which states that the force needed to extend a spring is proportional to the distance that spring is extended from its rest position. Therefore, the scale markings on the spring balance are equally spaced. A spring scale cannot measure mass, only weight.
A spring balance can be calibrated for the accurate measurement of mass in the location in which they are used, but many spring balances are marked right on their face "Not Legal for Trade" or words of similar import due to the approximate nature of the theory used to mark the scale. Also, the spring in the scale can permanently stretch with repeated use.
A spring scale will only read correctly in a frame of reference where the acceleration in the spring axis is constant (such as on earth, where the acceleration is due to gravity). This can be shown by taking a spring scale into an elevator, where the weight measured will change as the elevator moves up and down changing velocities.
If two or more spring balances are hung one below the other in series, each of the scales will read approximately the same, the full weight of the body hung on the lower scale. The scale on top would read slightly heavier due to also supporting the weight of the lower scale itself.
Spring balances come in different sizes. Generally, small scales that measure newtons will have a less firm spring (one with a smaller spring constant) than larger ones that measure tens, hundreds or thousands of newtons or even more depending on the scale of newtons used. The largest spring scale ranged in measurement from 5000–8000 newtons.
A spring balance may be labeled in both units of force (pounds, liters) and mass (grams, kilograms). Strictly speaking, only the force values are correctly labeled. In order to infer that the labeled mass values are correct, an object must be hung from the spring balance at rest in an inertial reference frame, interacting with no other objects but the scale itself
from
Wikipedia
date 2018
December 18
In science and engineering, the weight of an object is related to the amount of force acting on the object, either due to gravity or to a reaction force that holds it in place.[1][2][3]
Some standard textbooks[4] define weight as a vector quantity, the gravitational force acting on the object. Others[5][6] define weight as a scalar quantity, the magnitude of the gravitational force. Others[7] define it as the magnitude of the reaction force exerted on a body by mechanisms that keep it in place: the weight is the quantity that is measured by, for example, a spring scale. Thus, in a state of free fall, the weight would be zero. In this sense of weight, terrestrial objects can be weightless: ignoring air resistance, the famous apple falling from the tree, on its way to meet the ground near Isaac Newton, would be weightless.
The unit of measurement for weight is that of force, which in the International System of Units (SI) is the newton. For example, an object with a mass of one kilogram has a weight of about 9.8 newtons on the surface of the Earth, and about one-sixth as much on the Moon. Although weight and mass are scientifically distinct quantities, the terms are often confused with each other in everyday use (i.e. comparing and converting force weight in pounds to mass in kilograms and vice versa).[8]
Further complications in elucidating the various concepts of weight have to do with the theory of relativity according to which gravity is modelled as a consequence of the curvature of spacetime. In the teaching community, a considerable debate has existed for over half a century on how to define weight for their students. The current situation is that a multiple set of concepts co-exist and find use in their various contexts.[2]
my commentary:
The weight and the 9.8 escape velocity is the actual hardness of the object as it reaches space where the scale goes over into super heavy objects that maintain their special hardness and will maintain it no matter how long the object is in space.
So the measurement tool of the spring is actually ,the "springs eternal" of the function of the spring measuring it's own hardness as related to the super weight of it's own displacement beyond the limits of what science knows, and so Kennedy was right about it.
As such, it is infinite and it is eternal in terms of the "tipping of the scale" from Earth gravity and the exchange of hardness with weight and so too with the interstellar space and the exchange with hardness and weight and up to the intergalactic space as the exchange of hardness with weight.
So at some mega size, the object is lifting itself up and this is what Kennedy was saying when he mentioned super space ships in one of his his speeches.
So it becomes its own spring function.
more from
Wikipedia
date 2018
December 18
A spring scale or spring balance or newton meter is a type of weighing scale. It consists of spring fixed at one end with a hook to attach an object at the other. It works by Hooke's Law, which states that the force needed to extend a spring is proportional to the distance that spring is extended from its rest position. Therefore, the scale markings on the spring balance are equally spaced. A spring scale cannot measure mass, only weight.
A spring balance can be calibrated for the accurate measurement of mass in the location in which they are used, but many spring balances are marked right on their face "Not Legal for Trade" or words of similar import due to the approximate nature of the theory used to mark the scale. Also, the spring in the scale can permanently stretch with repeated use.
A spring scale will only read correctly in a frame of reference where the acceleration in the spring axis is constant (such as on earth, where the acceleration is due to gravity). This can be shown by taking a spring scale into an elevator, where the weight measured will change as the elevator moves up and down changing velocities.
If two or more spring balances are hung one below the other in series, each of the scales will read approximately the same, the full weight of the body hung on the lower scale. The scale on top would read slightly heavier due to also supporting the weight of the lower scale itself.
Spring balances come in different sizes. Generally, small scales that measure newtons will have a less firm spring (one with a smaller spring constant) than larger ones that measure tens, hundreds or thousands of newtons or even more depending on the scale of newtons used. The largest spring scale ranged in measurement from 5000–8000 newtons.
A spring balance may be labeled in both units of force (pounds, liters) and mass (grams, kilograms). Strictly speaking, only the force values are correctly labeled. In order to infer that the labeled mass values are correct, an object must be hung from the spring balance at rest in an inertial reference frame, interacting with no other objects but the scale itself