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What is the apparent weight formula and how is it used to calculate the apparent weight of an object in different gravitational environments?
The apparent weight formula is: Apparent Weight Actual Weight - (Mass x Acceleration due to Gravity). This formula is used to calculate the apparent weight of an object in different gravitational environments by taking into account the mass of the object and the acceleration due to gravity in that specific environment. By plugging in the values for mass and acceleration due to gravity, you can determine the apparent weight of the object in that particular gravitational setting.
How can one determine the apparent weight of an object?
The apparent weight of an object can be determined by measuring the force exerted on the object by a supporting surface, such as a scale. This force is influenced by the object's actual weight and any additional forces acting on it, such as gravity or buoyancy. By comparing the measured force to the object's actual weight, one can calculate the apparent weight.
An object with no apparent weight experiences BLANK?
An object with no apparent weight experiences weightlessness.
What is apparent weight how the apparent weight is different for different condition?
Apparent Weight is the weight of an Object in a SPECIFIC Gravitational condition, such as on Earth. The same object on the Moon would have a different (Lesser) Apparent Weight. The only constant is the Mass of the Object in both of those locations.
What is the relationship between the normal force and the apparent weight of an object in an elevator?
The normal force in an elevator is equal to the apparent weight of an object. As the elevator moves up or down, the normal force changes, affecting the apparent weight experienced by the object.
What is the apparent weight formula and how is it used to calculate the apparent weight of an object in different gravitational environments?
The apparent weight formula is: Apparent Weight Actual Weight - (Mass x Acceleration due to Gravity). This formula is used to calculate the apparent weight of an object in different gravitational environments by taking into account the mass of the object and the acceleration due to gravity in that specific environment. By plugging in the values for mass and acceleration due to gravity, you can determine the apparent weight of the object in that particular gravitational setting.
How can one determine the apparent weight of an object?
The apparent weight of an object can be determined by measuring the force exerted on the object by a supporting surface, such as a scale. This force is influenced by the object's actual weight and any additional forces acting on it, such as gravity or buoyancy. By comparing the measured force to the object's actual weight, one can calculate the apparent weight.
If the apparent weight of an object can be found by subtracting the buoyant force from the weight of the object what is the apparent weight of the floating object?
Zero.
An object with no apparent weight experiences BLANK?
An object with no apparent weight experiences weightlessness.
What is apparent weight how the apparent weight is different for different condition?
Apparent Weight is the weight of an Object in a SPECIFIC Gravitational condition, such as on Earth. The same object on the Moon would have a different (Lesser) Apparent Weight. The only constant is the Mass of the Object in both of those locations.
What is the relationship between the normal force and the apparent weight of an object in an elevator?
The normal force in an elevator is equal to the apparent weight of an object. As the elevator moves up or down, the normal force changes, affecting the apparent weight experienced by the object.
What is apparent weight?
Apparent weight of an object is the weight of an object when the object is partially or totally immersed in a fluid{liquid/gas} normally apparent weight of an object is less than the real weight of an object due to an upward force {upthrust} which is produced by the pressure difference inside the fluids.
When is the apparent weight of an object zero?
The apparent weight of an object is zero when it is in free fall or weightless due to being in orbit. In these cases, the object experiences no normal contact force from a supporting surface, so it does not feel any weight.
What is the apparent mass in water?
The apparent mass in water refers to the apparent weight of an object when immersed in water. This weight is equal to the difference between the actual weight of the object in air and the buoyant force acting on it while submerged in water.
Why does object immersed in water loses apparent weight not complete weight?
When an object is immersed in water, it experiences an upward force known as buoyancy due to the displaced water. This buoyant force reduces the net force acting on the object, causing it to lose apparent weight. However, the object still has its complete weight acting downward, but the buoyant force counteracts a portion of it, leading to the apparent weight being less than the actual weight.
What is the acceleration due to gracity due to apparent weight?
The acceleration due to gravity remains constant regardless of apparent weight. Apparent weight is the measure of force exerted on an object by a supporting surface and includes the force due to gravity acting on the object. So, the acceleration due to gravity affects the apparent weight, but they are not directly related in that sense.
What effect does bouyant force have on an object?
It reduces the object's apparent weight,sometimes to zero and even beyond.
