In the frictionless apparatus m1=1.7kg What is m2 if both masses are at rest
To determine the mass of m2 in the frictionless apparatus, we would need more information or equations related to the system. Without further details, it is not possible to specifically calculate the mass of m2.
However, the frictionless nature of the apparatus implies that the system is in equilibrium, which means that the net force acting on the system is zero. In other words, the sum of all the forces in the system is balanced and cancels each other out.
If we assume that the system is only subjected to gravitational force, the equation that relates the masses and accelerations of the objects is given by Newton's second law:
m1 * a1 = m2 * a2
In this equation, m1 and m2 represent the masses of the objects, while a1 and a2 represent their respective accelerations. Since both objects are at rest, their accelerations are zero (a1 = 0 and a2 = 0).
As a result, the equation becomes:
m1 * 0 = m2 * 0
This equation simplifies to 0 = 0, which doesn't provide any specific information about the mass of m2.
In conclusion, without additional information or equations related to the system, it is not possible to determine the exact mass of m2 in the given scenario.