Yes.
Yes, a molecule of oxygen (O2) is larger than a molecule of hydrogen (H2) because an oxygen atom has a larger atomic radius and can form stronger bonds with other atoms, resulting in a larger molecule size.
The glucose molecule is much larger than the water molecule.
Cl2 is larger than F2 because chlorine (Cl) has a larger atomic radius than fluorine (F), resulting in larger molecules overall.
A mitochondrion is much larger than an oxygen molecule. Mitochondria are organelles found within cells that generate energy, while an oxygen molecule is a diatomic molecule composed of two oxygen atoms.
The Pacinian corpuscle responds to "mechanical" pressure i.e. touch.
no
Yes, a molecule of oxygen (O2) is larger than a molecule of hydrogen (H2) because an oxygen atom has a larger atomic radius and can form stronger bonds with other atoms, resulting in a larger molecule size.
Larger.
The glucose molecule is much larger than the water molecule.
Answer 1: Because a molecule is made up of atoms. Correct answer: it's a trick or meaningless question. Molecules are not always larger or heavier than atoms. For example, a single uranium atom is larger and heavier than a hydrogen molecule (H2) or even a water molecule (H2O).
Cl2 is larger than F2 because chlorine (Cl) has a larger atomic radius than fluorine (F), resulting in larger molecules overall.
Yes, a bacterium is larger than a molecule. Bacteria are single-celled organisms typically ranging from about 0.5 to 5 micrometers in size, while molecules are much smaller, usually measured in nanometers or less. For example, a water molecule is about 0.3 nanometers in diameter, making bacteria significantly larger than individual molecules.
Glucose molecules are larger than water molecules.
I have corpuscle in my blood.
The diameter of Hb molecule is app. 5.5 nm, and that is larger than a glucose molecule.
Pressure is the sensation associated with activation of the lamellated corpuscle in the skin. The laminated corpuscle is also referred to as the Pacinian corpuscle.
The smaller molecule will generally travel faster than the larger molecule since kinetic energy is directly proportional to the mass of the molecule. Smaller molecules have less mass, so they can achieve higher speeds with the same kinetic energy.