7. Billy Bob is trying to decide whether to push a 50 kg dresser up a 4.5 m ramp of lift the back of a truck. The floor of the truck is 1.5 m above the surface of the street. a. What is the ideal mechanical advantage of the ramp? b. How much force is required to lift the dresser vertically upwards into the back of the truck? C. If the ramp were frictionless, then how much force is needed to push the dresser up it at constant speed?
7. Billy Bob is trying to decide whether to push a 50 kg dresser up a 4.5 m ramp of lift the back of a truck. The floor of the truck is 1.5 m above the surface of the street. a. What is the ideal mechanical advantage of the ramp? b. How much force is required to lift the dresser vertically upwards into the back of the truck? C. If the ramp were frictionless, then how much force is needed to push the dresser up it at constant speed?
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Can someone help with parts a-c?
Transcribed Image Text:7. Billy Bob is trying to decide whether to push a 50 kg dresser up a 4.5 m ramp or lift it directly into
the back of a truck. The floor of the truck is 1.5 m above the surface of the street.
a.
What is the ideal mechanical advantage of the ramp?
b. How much force is required to lift the dresser vertically upwards into the back of the truck?
C. If the ramp were frictionless, then how much force is needed to push the dresser up it at
constant speed?
d.
up the
Billy Bob realizes that the ramp has a fairly rough surface. When he pushes the dresser
ramp, he has to apply 225 N of force. What is the mechanical advantage of the ramp?
How much work is required to lift the dresser vertically into the back of the truck?
f. How much work is required to move the dresser up the ramp?
e.
g. What is the efficiency of the ramp?
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