An ideal gas at a flow rate of 10 m3/min enters a compressor at 25 °c and 1 bar. it leaves at 1 mpa. during the process, heat is dissipated to the surroundings at a rate of 2100 w. the temperature of the surroundings is constant at 25 °c, and the heat capacity of the gas is given by cp(ig)/r = 2.0 +0.040t, where t is in degrees kelvin. a) assuming this process is reversible, calculate the temperature at the compressor outlet. b) calculate the minimum power required to compress the gas. c) if the compressor efficiency is 70 %, calculate the actual power needed. d) calculate the actual final temperature at the compressor outlet.

speed

ratio of distance traveled to time interval

net force

vector sum of forces on object

object

source of diverging light rays either luminous or illuminated

don't remove my answer im trying my best to answer them

explanation:

when two balls of the different masses are dropped from equal height, they reach the ground at the same time .this is because they experience the same acceleration.

the acceleration is independent of mass.

thus when they are dropped they will always maintain the same velocity and travel the same distance (neglect air resistance of course) at the same time.

in order to follow the instructions and complete the statements, i need to use data from table c of your student guide. can you think of a way to let me see your student guide for a while ? i can't answer the question without the data in table c.