Three blocks connected by two strings: tensions?

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The problem involves three blocks on a frictionless surface connected by strings and pulled by a force of 60N. The correct tensions are determined by considering the acceleration of the entire system, which is calculated to be 1 m/s². Tension 1, which only pulls Block 1, is found to be 10N, while Tension 2, which pulls both Block 1 and Block 2, is 30N. Tension 3 remains at 60N as it pulls all three blocks. The calculations clarify the relationships between the tensions and the forces acting on the blocks.
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Homework Statement



Three blocks on a frictionless surface are connected by strings like so (from left to right):
Block 1 (m=10kg) to string with Tension 1 to Block 2 (m=20kg) to string with Tension 2 to Block 3 (m=30kg) to string with Tension 3.
The blocks are pulled to the right with force T3=60N.
Find T1 and T2.

Homework Equations



I'm not even sure... maybe
Fn=mg


The Attempt at a Solution



I would guess T1 is 20N and T2 is 40N, because it's proportional to T3. But this doesn't seem correct. Could I please get some feedback?


Thank you!
 
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T3 accelerates 3 blocks, T2 accelerates 2 blocks, etc.
 
if i am not wrong,

consider the entire system of 3 blocks

force to the right 60N = mass of 3 blocks (60kg) x acceleration

'a' is the same for the entire system. so , 'a' is the same for each block

so your acceleration is = 60/60 = 1

so for tension 1, which pulls only block 1, to have a = 1, it must have a force acting on it by f=ma = (10kg)(1) = 10N, so tension is = 10N

for tension 2, which pulls block 1 and block 2, a = 1, f=ma = (10+20)(1) = 30N

for tension 3, which pulls block 1,2,3, a = 1, f= ma = (10+20+30)(1) = 60N
 
Thanks a ton! That makes much more sense.
 

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