Our energy needs depend on body mass because larger bodies require more energy to sustain basic functions like metabolism and movement. This is because more tissue and cells need to be supported and fueled by energy in larger bodies. Smaller bodies have less mass to maintain and therefore require less energy.
The kinetic energy of a body depends on its mass and its velocity. As the mass of the body increases, its kinetic energy also increases. Similarly, as the velocity of the body increases, its kinetic energy increases as well.
The kinetic energy of a body depends on its mass and its velocity. The kinetic energy of an object increases with its mass and also increases with the square of its velocity.
Two types of energy that depend on the mass of an object are gravitational potential energy and kinetic energy. Gravitational potential energy is gained as an object is lifted against gravity, increasing with mass and height. Kinetic energy, on the other hand, depends on the mass of the object and its velocity.
This statement is incorrect. When energy balance in the body is positive (caloric intake exceeds caloric expenditure), body mass increases. To decrease body mass, energy balance must be negative (caloric intake is less than caloric expenditure).
When energy balance in the body is positive body mass decreases
The kinetic energy of a body depends on its mass and its velocity. As the mass of the body increases, its kinetic energy also increases. Similarly, as the velocity of the body increases, its kinetic energy increases as well.
The kinetic energy of a body depends on its mass and its velocity. The kinetic energy of an object increases with its mass and also increases with the square of its velocity.
No.
When energy balance in the body is positive body mass decreases
Its velocity and its mass.
Potential energy of a body with certain mass is proportional to the vertical position of the body with respect to the ground. Potential energy of the string is proportional to second degree of displacement from the point of equilibrium.
Two types of energy that depend on the mass of an object are gravitational potential energy and kinetic energy. Gravitational potential energy is gained as an object is lifted against gravity, increasing with mass and height. Kinetic energy, on the other hand, depends on the mass of the object and its velocity.
Considering only its Kinetic Energy, it will depend on its MASS and its Velocity. K.E. = 1/2 x Mass x V2 (2 means Squared)
This statement is incorrect. When energy balance in the body is positive (caloric intake exceeds caloric expenditure), body mass increases. To decrease body mass, energy balance must be negative (caloric intake is less than caloric expenditure).
The momentum depends on the mass and velocity. Momentum = mass x velocity. The kinetic energy (motion energy) also depends on the mass and the velocity. Kinetic Energy = mass x velocity2. Since both momentum and energy depend on velocity, they are both two body properties. They depend upon both the object being observed and the observer. Observers on different paths will measure different values for the same space rock. Both properties are subject to relativistic correction.
When energy balance in the body is positive body mass decreases
The mass and speed of the object