If An Atom Was The Size Of A Blueberry How Big Would A Grapefruit Be?

If a (nitrogen) atom were the size of a blueberry, and we wanted to know how many atoms were in a grapefruit, the grapefruit would have to be the size of the whole planet Earth in order to accommodate all of those blueberries, which would be impossible.

How many atoms are in a grapefruit?

  • GRAPEFRUIT IS THE SAME AS PLANET EARTH.
  • If a (nitrogen) atom were the size of a blueberry, and we wanted to know how many atoms were in a grapefruit, the grapefruit would have to be the size of the whole planet Earth in order to accommodate all of those blueberries, which would be impossible.
  • To put it another way, the number of atoms in a grapefruit is almost equivalent to the number of blueberries required to make a grapefruit juice drink.

What if the grapefruit were the size of the Earth?

  • Consider the fact that the grapefruit is the size of the entire planet!
  • We have greater space as a result of this.
  • If you considered each atom to be the size of a blueberry, you would need to cover the entire world with blueberries in order to produce a single grapefruit of the same size.
  • In this example, you may conceive of the size of an atom as being similar to the size of a blueberry, as follows:
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Can we blow up an atom the size of a blueberry?

If we shrink an atom to the size of a blueberry and then open the blueberry and look for the nucleus within, argues Bergmann in his TED-Ed video, we would never discover it because it is far, way too small for us to see. Because of this, we’ll need to blast our atom up to the size of a two-story building.

What would the nucleus of a blueberry look like?

Now, let’s blow up the blueberry to the size of a football stadium to see what happens. You would be able to glimpse the nucleus for the first time – it would be the size of a marble at this point.

Can you see the nucleus of the atom is the same size as a blueberry?

Putting on your blueberry-proof dive gear and diving inside the blueberry atom, you’d discover the nucleus in the center, but it’d be barely visible since the blueberry atom is so little. It’s contained within an atom the size of a house.

How big would your model of the atom have to be in order for you to see the nucleus?

In comparison, the diameter of a nucleus is around 2 10 -15 millimeters while the diameter of an atom is approximately 1 10 10 millimeters. In a scenario in which the Earth served as the nucleus, what would the size of an atom look like? The diameter of the Earth is 1.3 x 10 7 meters (1.3 x 10 7 meters). As a result, the atom is 5 tens of millions of times bigger than the nucleus

What would happen if atoms were as big as marbles?

A marble-sized nucleus would correspond to an atom the size of a football field, and the atom to which it belonged would be around the size of a football field. A stone positioned in the center of the ground and formed entirely of protons and neutrons would weigh around 1000 tonnes because of the density of the nucleus.

How much smaller are atoms than cells?

A cell is approximately 10 times the size of an atom.

How does a real atom look like?

With the heavy nucleus in the center and the electrons revolving around it, an atom appears to be a miniature solar system of sorts. The electrons, on the other hand, are organized in layers and can exist concurrently everywhere that quantum mechanics allows.

How big would the nucleus be of the atom was the size of an Olympic swimming pool?

  • Consider the following scenario: a circular pond with a diameter equal to the length of an Olympic swimming pool, which is approximately 165 feet in circumference (50 meters).
  • If an atom were the size of this pond, the nucleus would be the size of a pencil eraser—approximately 1/5-inch in diameter (about 5 millimeters)—and would be floating in the centre of the pond with the rest of the atoms around it.
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What is the size of the atom?

A neutral atom’s radius is typically defined as the distance between 30 and 300 pm (trillionths of a meter), or the distance between 0.3 and 3 angströms, depending on the definition. The radius of an atom is therefore more than 10,000 times the radius of its nucleus (1–10 fm) and less than 1/1000 of the wavelength of visible light (400–700 nm), respectively.

What is the size and scale of an atom?

The size of one atom is around 10-10 meters (or 10-8 centimeters). In other words, a row of 108 (or 100,000,000) atoms would span a centimeter, which is approximately the size of your fingernail. Atoms of various elements have varying sizes, but 10-10 m may be regarded of as a general estimate for the size of any atom in any element.

What would happen if you were the size of an atom?

You’d have an atom’s ‘atom’ that was 1/10000000000 smaller than the rest of the atoms. It continues to fall down indefinitely, just as you progress from being a planet to becoming a star. It is possible to detect atomic nuclei, but because the wavelength of light is larger than the wavelength of electrons, you would not be able to see them.

How does size of atoms increase in periodic table?

Increasing the size of atoms as you proceed along an element group (column) is a natural progression. Due to the fact that each atom further down the column has more protons and neutrons and also gets an extra electron energy shell, this is true. In general, the total size of atoms reduces significantly as you progress through an element period (row).

What if atoms were bigger?

To summarize, if you magnified one atom to the scale that humans can see, it wouldn’t appear to be much of a representation of anything. ″There would be a little little point that would be the nucleus, and there would be a wide region with a buzzing of electrons,″ Kakalios explains. ″The nucleus would be a small little spot that would be the nucleus.″

What is the smallest thing in the universe?

Among the tiniest particles in the cosmos, quarks carry just fractional electric charges, making them one of the most powerful weapons against evil. Scientists have a decent understanding of how quarks combine to form hadrons, but the characteristics of individual quarks have been challenging to decipher because they cannot be viewed outside of their particular hadrons at the moment.

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Can you make an atom bigger?

The more electrons you remove from the system, the smaller it becomes. Anions, on the other hand, are the polar opposite. When you add electrons, they resist each other, and since there are more of them, anions are larger than atoms, and they continue to grow in size as additional electrons are introduced.

Why do atoms look like balls?

Atoms can be read as usually spherical if you include the electron shells, which is related to the fact that electrons have spherical orbits around the nucleus when they are included. Rather of being ″seen,″ the subatomic particles themselves were detected by changes in energy, which were most typically manifested in the form of voltage.

How many atoms are in a grapefruit?

  • GRAPEFRUIT IS THE SAME AS PLANET EARTH.
  • If a (nitrogen) atom were the size of a blueberry, and we wanted to know how many atoms were in a grapefruit, the grapefruit would have to be the size of the whole planet Earth in order to accommodate all of those blueberries, which would be impossible.
  • To put it another way, the number of atoms in a grapefruit is almost equivalent to the number of blueberries required to make a grapefruit juice drink.

What if the grapefruit were the size of the Earth?

  • Consider the fact that the grapefruit is the size of the entire planet!
  • We have greater space as a result of this.
  • If you considered each atom to be the size of a blueberry, you would need to cover the entire world with blueberries in order to produce a single grapefruit of the same size.
  • In this example, you may conceive of the size of an atom as being similar to the size of a blueberry, as follows:

Can we blow up an atom the size of a blueberry?

If you think about it, a grapefruit is about as big as the entire world. We’ve gained some additional space. According to this analogy, if each atom were the size of a blueberry, it would take an entire planet’s worth of blueberries to produce one grapefruit. In this example, the size of one atom is equivalent to the size of a blueberry: ″

What would the nucleus of a blueberry look like?

Now, let’s blow up the blueberry to the size of a football stadium to see what happens. You would be able to glimpse the nucleus for the first time – it would be the size of a marble at this point.

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