A positive correlation meas that as one increases, so does the other.
In this case, as force increases, so does acceleration.
(F = ma, so if F increases, a must too (assuming mass does not change).)
you have to take mass and acceleration to get force
My bad, im asking why the formula isnt acceleration= force - mass
The law states that Force = Mass * Acceleration, and that is what the law shows.
Force in Newtons = mass in kilograms * acceleration ( can be gravitational acceleration )F = maThe mathematical relationship between force and acceleration is directly proportional.
force =mass x acceleration therefore mass = force /acceleration and acceleration = force/mass
A positive value for a correlation indicates a positive correlation; e.g. it has a positive slope.
There is acceleration in the direction of positive net force.
A positive correlation.
Force is equal to mass multiplied by acceleration. Acceleration is change in velocity either positive or negative. Mass is always positive.
Positive correlation = positive association Negative correlation = negative association
Positive correlation has a positive slope and negative correlation has a negative slope.
Force is any influence that allows an object to undergo change. Force is also Mass x Acceleration, and acceleration is a change in velocity. Therefore, the more force you have, the more positive acceleration you have, and therefore the higher the speed.
The acceleration is in the direction of the positive force so you will have deceleration in the direction of the negative force.
positive correlation-negative correlation and no correlation
Positive correlation.Positive correlation.Positive correlation.Positive correlation.
No. The strongest correlation coefficient is +1 (positive correlation) and -1 (negative correlation).
Force equals mass times acceleration. To change a speed, you must apply some force (either positive or negative) to give the object some acceleration. How quickly the object's speed changes will correspond to the force given divided by the mass of the object. (ie, the acceleration)