in the diagram below the red block has a mass of 3 kg, the blue block has a mass of 4 kg, & the pulley has a mass of 6 kg. Treat the pulley as a solid cylinder, assume the string remains taut the entire time, and assume no thermal energy is generated. Determine how fast the blue block will be going when it hits the ground if it was released from rest 42 cm above the ground. 1.59152 m/s X
in the diagram below the red block has a mass of 3 kg, the blue block has a mass of 4 kg, & the pulley has a mass of 6 kg. Treat the pulley as a solid cylinder, assume the string remains taut the entire time, and assume no thermal energy is generated. Determine how fast the blue block will be going when it hits the ground if it was released from rest 42 cm above the ground. 1.59152 m/s X
Related questions
Question
Transcribed Image Text:Blocks & a pulley
In the diagram below the red block has a mass of 3 kg, the blue block has a mass of 4 kg, & the pulley has a mass of 6 kg. Treat the pulley as a solid cylinder, assume the string remains taut the entire time, and
assume no thermal energy is generated. Determine how fast the blue block will be going when it hits the ground if it was released from rest 42 cm above the ground.
1.59152 m/s X
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 6 images
