Want this question answered?
Acceleration cannot be measured directly. An accelerometer, therefore, measures the force exerted by restraints that are placed on a reference mass to hold its position fixed in an accelerating body. Acceleration is computed using the relationship between restraint force and acceleration...
The acceleration is the same, which is the acceleration due to gravity. About 10m/s^2
From the equation F=ma, fixing F (force) as a constant, changing m(mass) effects directly to a(acceleration). Increasing mass, acceleration drops, decreasing mass, acceleration increases. Acceleration= change in velocity/ time.
A change in velocity can be effected only by acceleration. Therefore, if the acceleration is zero, there is no change, so final velocity equals initial velocity.
-- "Speed" is the rate at which distance changes. -- "Velocity" is speed along with the direction of motion. -- "Acceleration" is the rate at which velocity changes, including the direction of the change.
summing the values and dividing by the number of values
An arithmetic mean is a measure of central tendency of a set of values computed by dividing the sum of the values by the number of values.
Acceleration cannot be measured directly. An accelerometer, therefore, measures the force exerted by restraints that are placed on a reference mass to hold its position fixed in an accelerating body. Acceleration is computed using the relationship between restraint force and acceleration...
Acceleration cannot be measured directly. An accelerometer, therefore, measures the force exerted by restraints that are placed on a reference mass to hold its position fixed in an accelerating body. Acceleration is computed using the relationship between restraint force and acceleration...
You can compare two values.
The acceleration is the same, which is the acceleration due to gravity. About 10m/s^2
The most common for Acceleration is meters per second, per second.
Velocity is a constant traveling speed. Acceleration is increasing traveling speed (variation of speed over time)
You can compare their magnitude (absolute values) but not the numbers themselves.
Matrices can't be "computed" as such; only operations like multiplication, transpose, addition, subtraction, etc., can be done. What can be computed are determinants. If you want to write a program that does operations such as these on matrices, I suggest using a two-dimensional array to store the values in the matrices, and use for-loops to iterate through the values.
true
Why have you not try? Of course you can.