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Can friction or acceleration due to gravity affect the weight of an object?
Friction and acceleration due to gravity do not directly affect the weight of an object. Weight is determined by the gravitational force acting on the object, which is independent of these factors. However, friction can affect the apparent weight of an object on a surface by opposing the force of gravity.
Why is the weight of a body vary from one planet to another?
Yes. Weight is the product of mass and gravitational acceleration, so the greater (or lower) the gravitational acceleration, the greater (or lower) the weight.
A hammer is dropped on Planet X. If the hammer has a mass of 3 kg and a weight of 9N what is the gravitational acceleration of Planet X Is it more or less than that of Earth?
The gravitational acceleration of Planet X can be calculated using the formula weight = mass x gravitational acceleration. In this case, on Planet X, gravitational acceleration is 3 m/s^2, which is less than Earth's gravitational acceleration of 9.8 m/s^2.
How to find out weight of the person in the moon if we know the mass in the earth?
weight= mass x gravitational acceleration. thus if you know the mass and knew that the gravitational acceleration of the moon is 1/6 of that of the earth it is an easy calculation to get the objects lunar weight.
A car weighs 1323 N what is it's mass?
To calculate the mass, we can use the formula: weight = mass × gravitational acceleration. Given the weight of the car as 1323 N and the gravitational acceleration as approximately 9.8 m/s^2, we can rearrange the formula to solve for mass: mass = weight / gravitational acceleration, which gives us a mass of approximately 135 kg.
Weight equals mass times?
acceleration due to gravity. Weight is a measure of the force of gravity acting on an object, and it is calculated by multiplying the mass of the object by the acceleration due to gravity (9.8 m/s^2 on Earth).
A hammer is dropped on Planet X. If the hammer has a mass of 3 kg and a weight of 9N what is the gravitational acceleration of Planet X?
Using the formula for weight, Weight = mass * acceleration due to gravity, we can calculate the gravitational acceleration on Planet X. Given that Weight = 9N and mass = 3kg, we can rearrange the formula to find acceleration due to gravity = Weight / mass. Plugging in the values, acceleration due to gravity on Planet X is 3 m/s².
How do you find the weight of an object on earth?
You could weigh it against other objects. If it is not on the surface, multiply its mass by the acceleration of gravity (at that distance) to find its gravitational potential in newtons.
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 do you find the gravitational potential energy if you have the weight in newtons and the acceleration and the height?
The gravitational potential energy is the product of (mass) x (acceleration due to gravity) x height). The first two terms ... (mass) x (acceleration due to gravity) ... are the object's weight. So if you already know its weight, then the gravitational potential energy is just (weight) x (height) and you don't need to use gravity at all.
What is the weight of 0.2 grams of sodium chloride?
Because weight=mass x gravitational acceleration, the answer is 0,000001961 kilonewton.
How much does Jupiter weight in Newtons?
Jupiter has a mass of approximately 1.898 × 10^27 kilograms. To calculate its weight in Newtons, we use the formula weight = mass × gravitational acceleration. On Jupiter, the gravitational acceleration is about 24.79 m/s². Therefore, Jupiter's weight is approximately 4.7 × 10^28 Newtons.
