Final answer:
To find the equation for the acceleration of the two blocks in the Atwood's machine, we can set up equations using Newton's second law for each block. The forces acting on each block are the tension in the string and the weight of each block. By solving these equations simultaneously, we can find the acceleration of the system.
Step-by-step explanation:
To find the equation for the acceleration of the two blocks in the Atwood's machine, we can start by considering the forces acting on each block. The forces include the tension in the string and the weight of each block. Since the masses of the string and the frictionless pulley are negligible, the tension in the string is the same throughout. We can set up equations using Newton's second law for each block to find the acceleration. Let's denote the mass of block 1 as m₁ and the mass of block 2 as m₂.
For block 1:
T - m₁g = m₁a (equation 1)
For block 2:
m₂g - T = m₂a (equation 2)
Here, T is the tension in the string, g is the acceleration due to gravity (-9.8 m/s²), and a is the acceleration of the system.
By solving equations 1 and 2 simultaneously, we can find the value of the acceleration of the two blocks.