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What do substances with equal average kinetic energies have equal?
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∙ 9y ago
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Can kinetic energies cancel?
Yes, kinetic energies can cancel each other out when they are equal in magnitude but opposite in direction. For example, two objects of equal mass moving in opposite directions with the same speed will have kinetic energies that cancel each other out. This results in a net kinetic energy of zero for the system.
What is the displacement of an object in shm when the kinetic and potential energies are equal?
When the kinetic and potential energies of an object in simple harmonic motion (SHM) are equal, the object is at the amplitude of its motion. At this point, all of the energy is in the form of kinetic energy, and the displacement is equal to the amplitude of the oscillation.
What is the sum of all kinetic energy?
The sum of all kinetic energy in a system is equal to the total kinetic energy of all the individual particles in the system. It is calculated as the sum of ( \frac{1}{2}mv^2 ) for each particle, where ( m ) is the mass of the particle and ( v ) is its velocity.
How do two kinetic energies compare with one another?
The kinetic energy of an object is directly proportional to its mass and the square of its velocity. When comparing two kinetic energies, the object with the greater mass or velocity will typically have a higher kinetic energy. Alternatively, if their masses and velocities are equal, then their kinetic energies will also be equal.
What is the displacement of an object is SHM when kinetic and potential energies are equal?
When kinetic and potential energies are equal, the object is at the maximum displacement from the equilibrium position. This is known as the amplitude of the oscillation in simple harmonic motion. At this point, all the energy is stored as potential energy.
What happens if the particle of two substances have the same average kinetic energy?
the specific heats of the substances are identical the particels will not react chemically the substances have equal theraml energies the substances have equal temps hop it helped sorry if it didnt
Can kinetic energies cancel?
Yes, kinetic energies can cancel each other out when they are equal in magnitude but opposite in direction. For example, two objects of equal mass moving in opposite directions with the same speed will have kinetic energies that cancel each other out. This results in a net kinetic energy of zero for the system.
What is the displacement of an object in shm when the kinetic and potential energies are equal?
When the kinetic and potential energies of an object in simple harmonic motion (SHM) are equal, the object is at the amplitude of its motion. At this point, all of the energy is in the form of kinetic energy, and the displacement is equal to the amplitude of the oscillation.
What is the sum of all kinetic energy?
The sum of all kinetic energy in a system is equal to the total kinetic energy of all the individual particles in the system. It is calculated as the sum of ( \frac{1}{2}mv^2 ) for each particle, where ( m ) is the mass of the particle and ( v ) is its velocity.
How do two kinetic energies compare with one another?
The kinetic energy of an object is directly proportional to its mass and the square of its velocity. When comparing two kinetic energies, the object with the greater mass or velocity will typically have a higher kinetic energy. Alternatively, if their masses and velocities are equal, then their kinetic energies will also be equal.
What is the displacement of an object is SHM when kinetic and potential energies are equal?
When kinetic and potential energies are equal, the object is at the maximum displacement from the equilibrium position. This is known as the amplitude of the oscillation in simple harmonic motion. At this point, all the energy is stored as potential energy.
What is the displacement of an object when the kinetic and potential energies are equal?
When the kinetic and potential energies of an object are equal, it is at the point of maximum displacement, also known as the amplitude. This occurs in systems with simple harmonic motion, where the total mechanical energy is constant and switches between kinetic and potential energy at different points in the motion.
Flask A contains 2 liters of ch4 g and flask B contains 2 liters of o2 g each gas sample has the same?
The gas particles in both flask A and B will have the same average kinetic energy at the same temperature. This is because temperature is a measure of the average kinetic energy of the gas particles, and since they are at the same temperature, their average kinetic energies will be equal.
What is the displacement in SHM when kinetic amd potential energies are equal?
In simple harmonic motion (SHM), the displacement is maximum when the kinetic and potential energies are equal. This occurs at the equilibrium position, where the object momentarily stops before changing direction. At this point, the total mechanical energy of the system is entirely in the form of potential energy.
The sumof the kinetic and potential energies of a freely falling body is?
The sum of the kinetic and potential energies of a freely falling body is constant and equal to the total mechanical energy. This is a result of the conservation of energy principle, where the body's potential energy is converted into kinetic energy as it falls, keeping the total energy constant.
What is the ratio of kinetic energies between two particles of masses 1g and 4g moving with equal linear momentum?
GIven m1v1 = m2 v2 -----------------(1) Needed m1v12 / m2v22 = v1 / v2 But right from (1) v1 / v2 = m2 / m1 Given m1 = 1 g and m2 = 4 g So required ratio of KE = 4:1
Why the average kinetic energy of Neon Krypton and Radon are equal?
The average kinetic energy of Neon, Krypton, and Radon gases is equal because they are at the same temperature. According to the kinetic theory of gases, gas particles at the same temperature have the same average kinetic energy, regardless of their mass or composition. This means that the particles of Neon, Krypton, and Radon will all have the same average kinetic energy at a given temperature.
