HELP determine work needed to push a crate up a ramp at constant speed

AI Thread Summary
To determine the work needed to slide a 600-kg crate up a 3 m ramp at a constant speed, the relevant equation is W = mgh, where m is mass, g is gravitational acceleration, and h is height. The height of the ramp is 1 m, leading to a calculation of W = 600 kg * 9.8 m/s² * 1 m, which equals 5880 J or 5.88 * 10^3 J. The initial assumption that the answer is d) 5.88 * 10^3 J was confirmed correct, although the reasoning behind the calculation was questioned. It's emphasized that work and force are distinct concepts, with energy being equal to work done. Understanding these differences is crucial for solving similar physics problems.
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Homework Statement



A ramp leading up to a loading platform is 3 m long and 1 m high at its highest point. If the friction is ignored, what work is needed to slide a 600-kg crate up the ramp at a constant speed?
a) 2.00 *10^2 J
b) 5.89 *10^2 J
c) 1.80 *10^3 J
d) 5.88 *10^3 J

I believe the answer is d) but I would just like someone to explain the answer to me and correct me if d) isn't the answer. THANK YOU SO MUCH, in advance :)


Homework Equations



a=0
Fnet=0... because its at a constant speed
W=Ffriction=mg

The Attempt at a Solution



W=600kg*9.8m/s^2= 5.88*10^3J
 
Last edited:
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hi dani123! :smile:

(try using the X2 button just above the Reply box :wink:)
dani123 said:
Fnet=0... because its at a constant speed

correct :smile:
W=Ffriction=mg

wrong, W is work, that's completely different from force

work done equals the change in energy, so you need an equation relating W and potential energy
W=600kg*9.8m/s^2= 5.88*10^3J

maybe it's right, maybe it isn't, but the reasoning is certainly wrong :wink:
 
Ok so this may be a stupid question but is there a difference between force and energy? If so how am I suppose to calculate the energy in order to get the work required to push the crate up the ramp! Thanks so much for your time
 
dani123 said:
Ok so this may be a stupid question but is there a difference between force and energy?

erm … yeeees! :smile:

big difference

energy = work = force times distance

(for example, mg is force, mgh is energy)

you need to go back to your book, and read those chapters again, before trying any more of these questions! :wink:
 
ops! lol its been a long day haha thank you
 

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