Well, according to Newton's Second law, force equals mass times acceleration. What this really do is relate the three quantities when you accelerate an object. It also gives the basis for defining the unit of force (in the SI, the Newton is used as a unit of force).
Force is a vector quantity. This is because vector quantities do have direction and magnitude. Since force can cause a physical change whereby it is also a push or a pull, it has both features of a vector quantity.
force= mass times acceleration
A scalar quantity is one that has no direction. Examples are cost, temperature, and mass. By comparison, distance, velocity, and force have directions.
Force = Mass * Acceleration If you would multiply that by Mass, you would have mass^2 * acceleration. Which, to say the least, is nothing.
F = m AMultiply (mass) times (acceleration). The product is (force).
No. Mass, as a quantity, is independent of gravity.
mass cannot be called a force.* Mass is the amount (quantity) of matter within a body. Force is the push- or pull-energy exerted on mass.
acceleration
A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).A scalar quantity is a non-vector quantity. In a vector quantity, direction is relevant. In a scalar quantity, it is not. For example, mass (measured in kg.) is a scalar; force is usually indicated as a vector (magnitude in Newton, but the direction is also relevant).
The 'physical dimensions' of force are [ mass x length/time2 ].
Force is a vector quantity. This is because vector quantities do have direction and magnitude. Since force can cause a physical change whereby it is also a push or a pull, it has both features of a vector quantity.
accelleration=force divided by mass force=mass times aceleration
The gravitational force of the earth acting on the sun, possibly. This would be equivalent to the mass of the sun times the acceleration of the sun. The mass of the sun is a solar quantity while the acceleration of the sun (towards the centre of mass of Earth+Sun) it a vector.
force= mass times acceleration
A scalar quantity is one that has no direction. Examples are cost, temperature, and mass. By comparison, distance, velocity, and force have directions.
force
The weight cannot be 195 grams nor kilograms because these are measures of mass, not weight.The weight will depend on the quantity of platinum and the force of gravity.The weight cannot be 195 grams nor kilograms because these are measures of mass, not weight.The weight will depend on the quantity of platinum and the force of gravity.The weight cannot be 195 grams nor kilograms because these are measures of mass, not weight.The weight will depend on the quantity of platinum and the force of gravity.The weight cannot be 195 grams nor kilograms because these are measures of mass, not weight.The weight will depend on the quantity of platinum and the force of gravity.