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No, a 100 lb weight does not have more inertia simply because it is heavier; it has more inertia because it has greater mass. Inertia is the property of an object that resists changes to its state of motion, and it is directly proportional to mass. Therefore, the 100 lb weight has more inertia than the 50 lb weight due to its larger mass, regardless of whether they are sitting still or in motion.
What else can I help you with?
Weight and mass are essentially the same measurements?
Is weight and mass the same thing? Is 1 kg always 2.2 pounds? At the surface of the Earth, yes. On the moon, 1 kg would be about 0.7 pounds. Weight is the effect of gravity on mass. In space, you have no (or very little) weight, but you still have the same mass. Astronauts in the ISS have no weight and can float around, but if they want to move themselves, they have to deal with inertia.
What is sitting with one leg over the other?
It is still sitting!
Why does people sway side to side if sitting still?
People may sway side to side while sitting still due to a natural tendency to maintain balance and stability. This subtle movement can be a subconscious response to adjust posture or distribute weight evenly, especially if they are relaxed or not fully engaged. Additionally, it can be influenced by factors such as muscle tension, restlessness, or even the body's vestibular system reacting to a lack of external visual cues.
What is the tension in a rope that is supporting a 4.2 kg bucket?
There are two forces acting on the bucket which are the Tension and the Weight. Tension is directed upward and Weight is directed downward. Since the bucket is either moving at constant velocity, or if its remaining still, the Tension would have to equal in magnitude to the weight. Weight = Fg = Mass(in kgs) times Gravity= 4.2 kg x 9.8 m/s^2=41.46 Newtons Tension would be equal to Fg, which means that Tension would also be 41.46 Newtons.
How many Newtons are in 45.5 kilograms?
If your mass is 45.5 kilograms, then your weight on earth is about 445.9 newtons (rounded).On the moon or other planets, your mass is still 45.5 kilograms, but your weight is different,depending what body you're on.In space on the way there, your mass is still 45.5 kilograms, and your weight is zero.
A 100 lb weight sitting still would have more inertia than which of these?
A 50 lb weight moving at a constant speed. Inertia is the resistance of an object to changes in its state of motion, so an object at rest would have more inertia than one already in motion.
can a weightless body have inertia?
Yes, a weightless body can still have inertia. Inertia is the resistance of an object to changes in its motion, and it is determined by the mass of an object rather than its weight. Even if a body has no weight due to being weightless in space, it will still have inertia based on its mass.
What effects does inertia have on a static object?
Inertia makes it stay still and determines how hard it would be to get it moving
How would zero gravity affect inertia?
In zero gravity, inertia would remain the same as in normal gravity. Inertia is a property of a body that causes it to resist changes in its motion, regardless of the presence or absence of gravity. Thus, objects in zero gravity would still exhibit the same resistance to changes in motion as they would in a gravitational environment.
Examples in the law of inertia?
A rock sitting still until a force moves it. Shoot an arrow, it moves in a straight line except that gravity pulls down to earth.
Why does a high mass object under weightless conditions exhibit inertia?
That's because inertia does not depend on weight. An object's mass causes two effects: One is the gravitational interaction (force) with other masses. This is proportional to both masses (also, the force decreases with distance). The other is inertia - if an object has mass, then it requires an effort to change its velocity. Inertia depends on the mass - NOT on the weight. Weight also depends on the mass. However, weight also depends on the mass of other objects - for example, on Earth, our weight depends on the gravitational field of planet Earth.
When was Sitting Still created?
Sitting Still was created in 1981.
Does it still take energy to move something when it is weightless?
Yes, it still takes energy to move something even when it is weightless. Weightlessness refers to the absence of the sensation of weight due to being in free fall, but objects in motion still require energy to overcome inertia and change their velocity.
Which are the examples of inertia of rest?
-- a round smooth ball sitting still on a level smooth floor -- a car standing still on level ground, in neutral with its brakes off -- lying awake in bed in the morning but not feeling like getting up
Weight and mass are essentially the same measurements?
Is weight and mass the same thing? Is 1 kg always 2.2 pounds? At the surface of the Earth, yes. On the moon, 1 kg would be about 0.7 pounds. Weight is the effect of gravity on mass. In space, you have no (or very little) weight, but you still have the same mass. Astronauts in the ISS have no weight and can float around, but if they want to move themselves, they have to deal with inertia.
Is sliced watermelon still good after sitting on the counter overnight?
no!why would you ask that,weirdo
What is sitting with one leg over the other?
It is still sitting!
