Both are alkali metals.
Both are minerals.
Both are never found in nature.
Have an inverse relationship in the body - as one increases, the other decreases
The temperature of water and the solubility of a gas are in an inverse relationship; gases are more soluble at low temperatures.
The bond is non directional because the electric filed extends in all directions from the charged ion. The strength of the attraction follows an inverse square relationship which is typical of spherically symmetric Fields.
It is inverse.
Hi friends before going to discuss about inverse agonist and antagonist i would like to introduce two terms namely AFFINITY & EFFICACY. affinity is the ability of a molecule to bind to the receptor and Efficacy is the ability to produce pharmacological response. Inverse agonist and antagonist both have affinity but differs in Efficacy aspect. Efficacy of inverse agonist is less than zero and efficacy of antagonist was zoro. Regards Jagadeesh Induri
Retrograde, backward, reversed, contrary, inverse, worsening...
Sodium and potassium have an inverse relationship. In an inverse relationship, two things are opposite and react to each other.
The logical inverse of (if A then B) is (if not B then not A).
The slope of an inverse relationship
demand line shows an inverse relationship
Hyponatremia is low sodium (Na) in the body. Sodium has an inverse relationship with potassium (K+). So when sodium goes down, potassium goes up. Besides causing dehydration, low sodium with high potassium can affect the heart muscle.
the relationship between pressure and volume a direct or inverse?
Proof!
The opposite is a direct relationship.
The opposite mathematical relationship.
In an inverse relationship, one variable decreases while the other increases. As an equation, a basic inverse relationship looks like x = 1/y.
conditional and contrapositive + converse and inverse
2isto-2