Mass and force are directly proportional, therefore: more mass = greater force (Equation: F = ma).
Mass and speed are inversely proportional, so: more mass = lesser speed (Equation: p = mv).
The mass of a pendulum does not affect its speed. The speed at which a pendulum swings is determined by its length and the acceleration due to gravity. A heavier pendulum will have more inertia, which means it requires more force to set it in motion, but once it is in motion, its speed will be the same regardless of its mass.
To calculate force when given speed, you would need to know the mass of the object. The equation that relates force, speed, and mass is F = m*a, where F is the force, m is the mass, and a is the acceleration (change in speed over time). Without knowing the mass or acceleration, it is not possible to calculate the force.
No, speed times mass does not equal force. Force is calculated by mass times acceleration (F = ma), where acceleration is the change in speed over time. Speed times mass does not account for the acceleration of the object.
You can calculate speed by dividing the force by the mass to get acceleration, and then multiplying the acceleration by time. Speed = acceleration x time.
== F=m*a Force = mass * speed a = F/m For the same Force F the speed is big for small mass the speed is small for big mass == The more mass something has, the more force is required to accelerate it to a given speed. The less mass something has, the less the force required to accelerate it to a given speed. Simple and easy. For a given amount of force, the less the mass it is applied to, the higher the speed that will result. The more the mass to which it is applied, the lower the speed that will result. It's just that simple.
Gravitational force depends only on an object's mass and its distance from the center of the earth. Its speed has no effect on the gravitational force.
Mass effect force because mass is all about force
The effect that a reduction in surface wind speed will have on the Coriolis force is to reduce the effect of the Coriolis force. Winds blowing at higher speeds are pulled on more by the Coriolis force, which somewhat alters the direction in which they blow.
-- Force has no effect on mass.-- "Weight" is force.
The mass of a pendulum does not affect its speed. The speed at which a pendulum swings is determined by its length and the acceleration due to gravity. A heavier pendulum will have more inertia, which means it requires more force to set it in motion, but once it is in motion, its speed will be the same regardless of its mass.
To calculate force when given speed, you would need to know the mass of the object. The equation that relates force, speed, and mass is F = m*a, where F is the force, m is the mass, and a is the acceleration (change in speed over time). Without knowing the mass or acceleration, it is not possible to calculate the force.
No, speed times mass does not equal force. Force is calculated by mass times acceleration (F = ma), where acceleration is the change in speed over time. Speed times mass does not account for the acceleration of the object.
The force on a mass moving at a constant speed and direction is 0.
Because the effect of gravity is to cause forces between every two objects that have mass, and force on an object generally affects its speed.
You can calculate speed by dividing the force by the mass to get acceleration, and then multiplying the acceleration by time. Speed = acceleration x time.
the affect gravitonal and normal force
== F=m*a Force = mass * speed a = F/m For the same Force F the speed is big for small mass the speed is small for big mass == The more mass something has, the more force is required to accelerate it to a given speed. The less mass something has, the less the force required to accelerate it to a given speed. Simple and easy. For a given amount of force, the less the mass it is applied to, the higher the speed that will result. The more the mass to which it is applied, the lower the speed that will result. It's just that simple.