JEROME - Black holes do not exist

[Dancing David]

First he is getting at nothing, and second, rub your hands together to make them hot and put the thermometer in between them and before you mother comes back to your room but it back in your mouth, geeeeeeeeee.

Paul



a mouth thermometer stays at the highest temp. that is reads.

OMG, you have a temp of three hundred degrees!

(If you child has a lighter)

 

[JEROME DA GNOME]

Children do this all the time.

First, let us take the moon, now on the surface of the moon the gravity is about 1/6 of earth’s, but that is on the surface, so……..

Mean density of the moon is 3.3464 g/cm³

Mean density of the earth is 5.5153 g/cm³

So the moon is about .6067 as dense as the earth

Now the mean radius of the moon is 1,737.1 km

And the earth’s mean radius is 6,371 km

So the moon is about .27265 is size of the earth
So multiply .6067 times .27265 and we get .16543 g’s or about 1/6 g at its surface.

So a 10 cm orange is about 7.848 ^ -9 of the earth’s radius

It has the density of about 1 g/cm³

So the orange is about .18131 as dense as the earth

So multiply 7.848 ^ -9 times .18131 and we get 1.423 ^ -9 g’s or about 702,759,526 times weaker than the earth's gravity at its surface.

Paul

Nice math, you forgot to measure the FORCE of gravity.

You have created a comparison of different objects to one another.

We are talking about the FORCE of gravity.

 

[Paulhoff]

OMG, you have a temp of three hundred degrees!

(If you child has a lighter)

And this shows why the hands are better.

Paul

 

[Paulhoff]

Oh, I forgot to say that g's are how gravity is measured, for normal people that is.

http://en.wikipedia.org/wiki/G-force

Paul

 

[JEROME DA GNOME]

Oh, I forgot to say that g's are how gravity is measured, for normal people that is.

http://en.wikipedia.org/wiki/G-force

Paul

That is a comparison to a comparison.

Please, how does one measure the FORCE of gravity?

 

[Reality Check]

That is a comparison to a comparison.

Please, how does one measure the FORCE of gravity?

Do you agree that the F in F=ma (one of Newton's laws - you may have heard of them) is FORCE?

Do you agree that the F in F = GMm/r² (another of Newton's laws) is FORCE?

 

[The Man]

If we could not measure gravity, we could not send any satellites in orbit and/or to the other planets. If one knows the mass of any object one can easily calculate the force of gravity of that object.

Correct, in gravity assist trajectories we calculate, then physically demonstrate the interaction with and then the departure from the influence of various gravitational fields.

The point is the force is neither measurable nor controllable.

As indicated above, it is both measurable and controllable.

Already addressed. That is the relationship between two objects that is being measured, not a measure of the force of gravity.

The problem is that the force of gravity is an imaginary force, as demonstrated by general relativity. If you want an example of this then just jump of a cliff, you will perceive no gravitational force, until of course, the base of the cliff slams into you.

Really, we make objects that have different measurable and controllable gravity?

Such as?

Sure, a 10 Kg mass generates a different gravitational field (or space-time curvature) then a 1,000 Kg mass of the same dimensions, both are equally producible and that production is entirely controllable.

 

[Reality Check]

That is a comparison to a comparison.

Please, how does one measure the FORCE of gravity?

A really simple way to measure the force of gravity for a really simple person: Cavendish experiment

 

[Paulhoff]

I sure hope for JEROME that the woman in his life (I'm out on a limb thinking that he has one) didn't have this much trouble explaining sex to him.

Paul

 

[Shalamar]

A really simple way to measure the force of gravity for a really simple person: Cavendish experiment

While a great link, and fantastic explanation, Jerome will discount this, because he will claim that it measures the gravity compared to two masses.

He continues to be willfully ignorant of the fact that the force of gravity is the force exerted of masses against each other.

 

[Reality Check]

While a great link, and fantastic explanation, Jerome will discount this, because he will claim that it measures the gravity compared to two masses.

He continues to be willfully ignorant of the fact that the force of gravity is the force exerted of masses against each other.

I agree - for some reason Jerome just does not know what a force actually is and that all forces (gravity, electromagnetic, strong nuclear and weak interaction) are between 2 objects.

 

[Paulhoff]

And just think, after 200 plus years after that experiment, we still have people like JEROME.

Paul

 

[wollery]

Wow!

Yet another complete blank in Jerome's scientific knowledge!

 

[Paulhoff]

Soooooooooooooo, guess who the Black Knight is.

Paul

 

[MattusMaximus]

I do not deny that gravity exists, that was a straw-man someone threw out there.

The point is the force is neither measurable nor controllable.

Uhhmm... it seems that you've contradicted yourself here. If you "do not deny that gravity exists" yet in the next sentence you state that the gravitational "force is [not] measurable", then that makes no sense.

If you agree that it exists, then you should be able to measure it. N'est pa?

Please explain how anything you just said is supposed to make sense - my woo translator broke on the 10th page of this thread.

 

[JEROME DA GNOME]

Soooooooooooooo, guess who the Black Knight is.

Paul

Serendipity!!!

I was thinking about posting that exact link!

 

[JEROME DA GNOME]

A really simple way to measure the force of gravity for a really simple person: Cavendish experiment

That was measuring the effects of a specific object in relation to other objects.


Please, how does one measure the gravity force of an orange?

 

[MattusMaximus]

Another physics lesson for everyone (listen up Jerome, you might learn something)...

Nice math, you forgot to measure the FORCE of gravity.

You have created a comparison of different objects to one another.

We are talking about the FORCE of gravity.

Another way we look at forces in physics is as an interaction between two objects. As such, it makes no sense whatsoever to refer to a "force" in isolation - since, by definition, force is an interaction then there must be two objects that are doing the interacting.

We know this, for example, through our understanding of Newton's Third Law.

Some examples:

1. I hit the computer keypad - it hits my finger right back.
2. You kick a soccer ball - it kicks your foot right back.
3. An apple falls to the Earth - the Earth falls upwards towards the apple.

To speak of a single, isolated "force" in terms of only one object makes no sense; how can something in isolation interact with something when it's the only thing? I really think that you've got your definitions all mixed up - perhaps you are talking about a field?

 

[Reality Check]

That was measuring the effects of a specific object in relation to other objects.


Please, how does one measure the gravity force of an orange?

Drop it o the floor?

What is your definition of a force?

 

[MattusMaximus]

A really simple way to measure the force of gravity for a really simple person: Cavendish experiment

Nah, it's even easier than that... just step onto a bathroom scale.