3kg
Uniform motion is what happens in the absence of any net force, so force isn't needed to maintain uniform motion. But in our everyday experience on Earth, we always need to supply force in order to keep something moving, only because there are always forces acting to stop it, and we have to counteract them. In the case of your 1,000-kg car, we'd have to know what forces are working against it ... wind, road friction, air resistance, wheel-bearing friction, etc. ... and then we'll know how much force we have to supply to cancel those out. Whatever the answer is, it'll be a continuous thing. The length of time will be irrelevant.
the torque transmitting capacity according to uniform pressure theory is more than the uniform wear theory. but if you want to improve the torque transmitting capacity you have to increase the following parameters 1)coefficient of friction 2)number of friction and pressure plates 3)dimensions of the plates
Soldiers Without Uniform was created in 1942.
The duration of Soldiers Without Uniform is 600.0 seconds.
Unless the officers are on patrol, many of their duties can be performed without the uniform. Most prefer to wear the uniform.
An athanor is a furnace or stove, designed and used to maintain uniform heat, particularly by alchemists.
The requirement to generate, maintain, and update the uniform regulations
Uniform flow cannot occur in a frictionless channel because the absence of friction does not allow for energy dissipation, causing the flow velocity to remain constant throughout the channel. In reality, energy is lost to friction, resulting in a non-uniform velocity profile.
uniform law code
No, an object cannot maintain uniform velocity when its acceleration is non zero. If an object is accelerating, its velocity will be changing over time, so it cannot maintain a constant velocity. Uniform velocity means the speed and direction of the object remains constant.
well a black bistro uniform looks like a chef uniform but black and without the hat. __________________________________________________________________
Zero! From Newton's first law, every object continues in its state of rest or uniform motion in a straight line unless a resultant force acts on it to change its state. Thus, if it is required that the object continues in its state of uniform motion in a straight line, no net force is required.