equilibrium constant
Any line that can be expressed in the form: y=-x+C, where C is a constant For example, y=-x+1
Nope, bc the common difference is not constant ( linear) its goes up +1, +5, +2, therefore, again, it's not constant
It means that the value of the function, f(x), is negative when x = 0.
Changing velocity and constant acceleration? Yes. Changing velocity indicates constant acceleration dv/dt = a constant(k) when v=kt. Then dv/dt= dkt/dt= k. the constant k can be positive , negative or zero.
-e^(-x) or negative e to the negative x this is because you multiply the function (e) by: 1 / (the derivative of the power ... in this case: -1) e^(-x) * (1/-1) = -e^(-x) Don't forget to add your constant!
equilibrium constant
Substituents with a negative Hammet substituent constant are electron donating. Examples include R groups and OH groups.
Any line that can be expressed in the form: y=-x+C, where C is a constant For example, y=-x+1
Nope, bc the common difference is not constant ( linear) its goes up +1, +5, +2, therefore, again, it's not constant
acceleration is the slope of the v t graph... so the acceleration is constant and negative. In other words, the object is slowing down at a constant rate.
In a mathematical equation, the constant is defined as a term in the equation that only includes a real number. Since a negative number is a real number, then yes, a negative number can be considered a constant. For example, in the equation 6x -2... -2 would be the constant because it is a term that contains only the real number (-2).
It means that the value of the function, f(x), is negative when x = 0.
No, a negative slope on a velocity vs time graph indicates that the object is moving in the negative direction. If the slope is constant, it means the object is moving at a constant speed in the negative direction.
negative five and eleven or one and two
No, the equilibrium constant (Ksp) cannot be negative. It is always a positive value or zero, representing the extent of solubility of a salt in a solution.
The quantity called the Gravitational constant (G) has the following dimension: [G] = L3T-2M-1 The mass exponent is "negative" ... but watch out, it only means that mass is on the denominator ... i.e. [G] = L3 / T2M