70kg
Use the formula: PE = mgh (potential energy = mass x gravity x height). Gravity is approximately 9.8.
50kg is 7.9 stone.
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.
E=mghE=50 x 9.81 x 10= 4905 J
yes by reducing the distance of the 50kg and 5 kg objects and increasing the distance of the the 50kg objects
Use the formula: PE = mgh (potential energy = mass x gravity x height). Gravity is approximately 9.8.
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)
50kg is 7.9 stone.
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.
E=mghE=50 x 9.81 x 10= 4905 J
yes by reducing the distance of the 50kg and 5 kg objects and increasing the distance of the the 50kg objects
The conversion of kinetic energy into potential energy (and vice versa) is a fundamental concept in physics and is often associated with the principles of mechanical energy conservation. The relationship between kinetic and potential energy is governed by the law of conservation of energy. Gravitational Potential Energy: Gravitational Potential Energy:ENTER FOR $1000 🤑 CASH FOR SUMMER 🌞MER 🌞 One common example involves the conversion of kinetic energy to gravitational potential energy and vice versa. Consider an object in free fall near the Earth's surface. As the object falls, it loses kinetic energy and gains gravitational potential energy. Conversely, if the object is lifted against gravity, it gains potential energy and loses kinetic energy. Spring Potential Energy: Another example involves the conversion of kinetic energy to elastic potential energy and vice versa. When a spring is compressed or stretched, it stores potential energy in the form of elastic potential energy. As the spring is released, this potential energy is converted into kinetic energy. The mathematical expressions for these relationships are as follows: Gravitational Potential Energy (U) and Kinetic Energy (K): For an object of mass (m) at height (h) above the ground: � = � � ℎ U=mgh � = 1 2 � � 2 K= 2 1 mv 2 where � g is the acceleration due to gravity, and � v is the velocity of the object. The total mechanical energy (E) is the sum of kinetic and potential energy and remains constant in the absence of external forces (ignoring air resistance and other non-conservative forces): � = � � E=U+K Elastic Potential Energy (PE) and Kinetic Energy (K): For an object attached to a spring with a spring constant (k) and displacement (x) from equilibrium: � � = 1 2 � � 2 PE= 2 1 kx 2 � = 1 2 � � 2 K= 2 1 mv 2 Again, the total mechanical energy is conserved in the absence of non-conservative forces. In summary, the conversion between kinetic and potential energy depends on the specific forces at play (gravity, spring forces, etc.) and is governed by the law of conservation of energy. The total mechanical energy of a system remains constant in the absence of non-conservative forces.
The mass of an object never changes, the weight of an object changes depending on the gravitational force (or which planet you're on). So on earth, the gravitational field strength is 10, so if your mass is 50kg, your weight is 500N
50kg's of course.
1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft
50KG 50KG
36% of 50kg= 36% * 50= 0.36 * 50= 18kg