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Force= Mass x Acceleration
Newton's second law of motion describes the behavior of objects for which all existing forces are notbalanced.Its equation is represented thus:F is the force (in Newtons (N))m is the mass of the object (in Kilograms (Kg))a is the acceleration of the object (In meters per second per second)F=m*a
force is essentially a push or pull, its value in science terms can be measured using f=m*a where: f = force in newtons m = mass in kilograms a = acceleration in meters per second / per second
Also if you mean Newtons in terms of weight the formula is Newtons = Mass * Gravity
Newton's second law is F=ma where 'F' is Force (in newtons, N), 'm' is mass (in kilograms, kg) and 'a' is acceleration (in meters per second per second, ms^-2) you can replace the symbols in the equation with their respective units: N = kg * ms^-2 so one newton is equal to one kilogram-meter-per second-per second.
distance covered per unit time. Motion has direction and magnitude. The magnitude might also be known as speed: meters/second, kilometers/hour feet/second, miles/hour
As an ampere is an SI base unit, it is NOT defined in terms of the coulomb. In fact, it is defined in terms of the force (in newtons) between two, parallel, current-carrying conductors. The coulomb, being an SI derived unit, is equivalent to an ampere second.
Newton's third law of motion is "Every action has an equal and opposite reaction." When you sit down in a chair, the chair must provide an equal and opposite reaction or it would collapse.
this is how motion is described in terms of speed: the object moving from one point to another.
It requires differential calculus to accurately describe changes in motion. Motion is measured in terms of a distance travelled in a specific period of time, thus for example, a car could be described as travelling at 40 miles per hour. A change in motion is measured in terms distance per time per time, such as an acceleration of ten miles per hour per second. That would mean, for example, that the car was getting faster by ten mph every second.
By saying that the acceleration is zero.
It requires differential calculus to accurately describe changes in motion. Motion is measured in terms of a distance travelled in a specific period of time, thus for example, a car could be described as travelling at 40 miles per hour. A change in motion is measured in terms distance per time per time, such as an acceleration of ten miles per hour per second. That would mean, for example, that the car was getting faster by ten mph every second.