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What is the potential energy of a 50kg object that is hanging 10 meters off the ground?
The potential energy of an object is given by the formula PE = mgh, where m is the mass (50kg), g is the acceleration due to gravity (9.81 m/s^2), and h is the height (10m). Plugging in the values, we get PE = 50kg * 9.81 m/s^2 * 10m = 4905 J. So, the potential energy of the object is 4905 Joules.
A 50kg crate is lifted to a height of 10m how much potential energy does the crate have after being lifted?
The potential energy of the crate is given by the formula: Potential energy = mass * gravity * height. Plugging in the values, we get: PE = 50kg * 9.8 m/s^2 * 10m = 4900 Joules. So, the crate has 4900 Joules of potential energy after being lifted.
How much is 50 kilo in stones?
50kg is 7.9 stone.
Is it possible for the gravitational force between two 50 kg object to be less than gravitational force between a 50 KG object and a 5 KG object?
The gravitational force is proportional to the mass of the objects: Between two 50 kg objects it is ten times stronger than between a 5 and a 50 kg object. The gravitational force is also dependent on the distance between the two masses. The force is inversely proportional to the square of the distance. Therefore, the gravitational force between two 50Kg objects can be less than a 50Kg and a 5Kg object if the distance between the two 50Kg objects is greater than the distance between the 5Kg and 50Kg objects. See link for the equation to calculate the gravitational force.
What is the weight of 50kg gold?
The weight of 50kg of gold is 50kg. Gold is typically measured in weight units such as kilograms or grams. So, 50kg of gold would weigh 50kg.
What is the potential energy of a 50kg object that is hanging 10 meters off the ground?
The potential energy of an object is given by the formula PE = mgh, where m is the mass (50kg), g is the acceleration due to gravity (9.81 m/s^2), and h is the height (10m). Plugging in the values, we get PE = 50kg * 9.81 m/s^2 * 10m = 4905 J. So, the potential energy of the object is 4905 Joules.
A 50kg crate is lifted to a height of 10m how much potential energy does the crate have after being lifted?
The potential energy of the crate is given by the formula: Potential energy = mass * gravity * height. Plugging in the values, we get: PE = 50kg * 9.8 m/s^2 * 10m = 4900 Joules. So, the crate has 4900 Joules of potential energy after being lifted.
What is thickening of segments?
a body of mass 50kg is placed on a wall of height 1.5m above the ground.calculate the potential energy of the body(g_10mls2)
How much is 50 kilo in stones?
50kg is 7.9 stone.
Is it possible for the gravitational force between two 50 kg object to be less than gravitational force between a 50 KG object and a 5 KG object?
The gravitational force is proportional to the mass of the objects: Between two 50 kg objects it is ten times stronger than between a 5 and a 50 kg object. The gravitational force is also dependent on the distance between the two masses. The force is inversely proportional to the square of the distance. Therefore, the gravitational force between two 50Kg objects can be less than a 50Kg and a 5Kg object if the distance between the two 50Kg objects is greater than the distance between the 5Kg and 50Kg objects. See link for the equation to calculate the gravitational force.
What is the weight of 50kg gold?
The weight of 50kg of gold is 50kg. Gold is typically measured in weight units such as kilograms or grams. So, 50kg of gold would weigh 50kg.
How much a 50kg person would be on each planet?
The weight of a 50kg person on each planet would be approximately: Mercury - 19kg Venus - 47kg Earth - 50kg Mars - 19kg Jupiter - 318kg Saturn - 134kg Uranus - 56kg Neptune - 69kg These values are based on the gravitational pull of each planet compared to Earth's gravity.
What would be you're mass on the moon if you are 50kg here on earth?
Your mass would still be 50kg on the moon because mass is a measure of the amount of matter in an object, which does not change with location. However, your weight would be different on the moon due to the weaker gravitational pull compared to Earth.
A 50kg crate is lifted to a height of 10 meters if it took 5 seconds to lift the crate using a machine what was the power rating of the machine?
The work done to lift the crate is equal to the gravitational potential energy gained: Work = force x distance = weight x height. Here, Work = 50kg x 9.8m/s^2 x 10m = 4900 Joules. Power is work done per unit time, so Power = Work / time = 4900J / 5s = 980 Watts. Therefore, the power rating of the machine is 980 Watts.
What would be the gain in the gravitational potential energy of a boy when a man pulls the rope of the swing making an angle 30 degree with the vertical if mass of the boy is 50 kg and rope 5 m long?
The gain in gravitational potential energy of the boy would be 2450 J. This can be calculated using the formula: ΔPE = mgh, where h is the vertical height gained. The vertical height gained can be calculated as h = L(1 - cosθ), where L is the length of the rope and θ is the angle made with the vertical (30 degrees in this case). Substituting the values, we get ΔPE = 50kg * 9.8m/s^2 * 5m * (1 - cos(30°)) = 2450 J.
Is it possible for the gravitational force between the 50 kg objects to be less than the gravitatonal force between a 50 kg object and a 5 kg object?
No, the gravitational force between two objects depends on their masses and the distance between them, given by the formula F=G*(m1*m2)/r^2. Since the masses are the same in both scenarios (50 kg), the gravitational force will be the same if the distance is the same.
Is it possible for the gravitational force between two 50kg objects to be les than the gravitational force between a 50kg object and 5 kg object?
Gravitational force is a result of distance and mass. If the 50 kg and 5 kg objects were extremely close to each other and the 2 50 kg objects were really far apart from each other, then the gravitational attraction between the 50 kg and 5 kg object could be greater. However, if they are the same distances apart, the attraction with the most combined mass will have the strongest gravitational force.
