The initial reaction is required to be subtracted from the final reaction to get the net reaction.
Final position minus initial position gives the displacement or change in position between the two points. It represents the distance and direction traveled from the initial position to the final position.
time interval
No, the final position minus the initial position gives the displacement, which includes both the magnitude and the direction of the travel. The direction traveled can be determined by considering the displacement vector.
The final energy of a reaction can be determined using the formula: [ E_{\text{final}} = E_{\text{initial}} + Q - W ] where ( E_{\text{initial}} ) is the initial energy of the system, ( Q ) is the heat added to the system, and ( W ) is the work done by the system. This formula is derived from the first law of thermodynamics, which states that the change in internal energy of a system is equal to the heat added to the system minus the work done by the system.
To find the constant rate of change is by taking the final minus initial over the initial.
In the given scenario, the value of delta t is the difference between the final time and the initial time.
Final volume minus initial volume refers to the difference between the volume at the end of a process or measurement and the volume at the beginning. It indicates the change in volume that occurred between the two points.
No, It is the average velocity.
The word "minus" is structured as VC V, with the initial consonant "m" followed by the vowel "i" and the final consonant "n."
the formula for finding acceleration is final velocity, minus initial velocity, all over time. So if you have the acceleration and initial speed, which is equal to the initial velocity, you must also have time in order to find the final velocity. Once you have the time, you multiply it by the acceleration. That product gives you the difference of the final velocity and initial velocity, so then you just add the initial velocity to the product to find the final velocity.
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To determine the change in an object's momentum, you need to know the initial momentum of the object (mass x initial velocity) and the final momentum of the object (mass x final velocity). The change in momentum is equal to the final momentum minus the initial momentum.