The units of q in the given equation are not specified.
The unit of q in the given equation is not provided.
The units of q in the given context are not specified.
In physics, the fundamental units of charge (q) are measured in coulombs (C).
The units of energy in the equation Emc2 are joules (J).
The number of units of the keyword "q" needed for this task is unknown.
The unit of q in the given equation is not provided.
The units of q in the given context are not specified.
Without an equality sign the given expression can't be considered to be an equation.
Without an equality sign the given information can't be defined as an equation.
The equation used to determine total cost is as follows: Total Cost = Fixed Cost + (Average Variable Cost) x Output. The equation to find total cost of a number ("q') of units is: C(q)= 100 + 2q.
One coulomb is defined as the amount of electrical charge transported, per second, at a current of one ampere. In terms of units, in SI a coulomb is special name given to an ampere second. The equation for this, is: Q = I t. Where Q = charge, I = current, and t = time.So, if we change the subject of the equation, for time, t, we have: t = Q/I = 10/5 = 2 s.
Why don't you express the equation verbally? Q 12 89 doesn't have much meaning.
Depends on the equation. If it is similar to: Q = m*Cp*dT then Q = energy if it is similar to A= Ao * exp (-Q/RT) then Q is the activation energy
For this problem, we use the equation: C=Q/V; where C=capacitor, Q=charge, V=volts We are trying to find Q; the C and V are given, so we just need to plug the numbers into the equation. C=7.90F V=24.0 V Q=? 7.90=Q/24.0 solve for Q
Q - 12 = 89 Add 12 to both sides of the equation. Q - 12 + 12 = 89 + 12 Q = 101
In physics, the fundamental units of charge (q) are measured in coulombs (C).
In the Hardy-Weinberg equilibrium equation, ( q^2 ) represents the frequency of the homozygous recessive genotype in a population. Specifically, it indicates the proportion of individuals that express the recessive phenotype for a given trait. The equation itself is expressed as ( p^2 + 2pq + q^2 = 1 ), where ( p ) is the frequency of the dominant allele and ( q ) is the frequency of the recessive allele.