If the Final DO is higher than the Initial DO, it may indicate an input error or sensor calibration issue. It may also suggest that the water has been aerated or oxygenated since the initial measurement. It is important to double-check the measurements and the calibration of the equipment to ensure accuracy.
If a car is speeding up, its initial speed is less than its final speed. As the car accelerates, its speed increases over time, so the initial speed is lower than the final speed attained during acceleration.
To find the final position of an object, add the initial position and displacement. To calculate displacement, subtract the initial position from the final position. Mathematically, displacement = final position - initial position.
If the final velocity is less than the initial velocity, the object is decreasing speed. The object has slowed down or its speed has decreased compared to when it started.
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.
You can find the final speed using the formula: final speed = initial speed + (acceleration * time). Simply plug in the values for initial speed, acceleration, and time to calculate the final speed of the object.
If a car is speeding up, its initial speed is less than its final speed. As the car accelerates, its speed increases over time, so the initial speed is lower than the final speed attained during acceleration.
If a car is speeding up, it's initial speed is LOWER than it's final speed.
Accelerating...or was accelerating.
i think it's 2
Deceleration (or negative acceleration).
It doesn't necessarily mean that the final velocity is always greater than the initial, if the initial velocity was at rest or 0 m/s then any form of movement would be greater. In cases where the final is smaller is like running into a wall or a decrease in acceleration.
The amount of increase or decrease in a function is determined by the difference between the final value and the initial value of the function. If the final value is greater than the initial value, there is an increase; if the final value is less than the initial value, there is a decrease. The magnitude of this difference indicates the extent of the change in the function.
You can't.You only know what half the sum of (initial + final) is, (it's the average), but you don't know what the initial and final are.
Reduced atmospheric drag at higher altitudes, Acceleration due to the thrust of the rocket's engine(s).
Subtract the initial from the final
what is the initial and final colour of the lemon juice
IN general change is defined as the difference of initial from the final. So change = Final - Initial. Hence change in momentum = Final momentum - initial momentum