That depends on several other factors, too.
First, get the real force needed - apart from the mass or weight of the object, you also need the coefficient of friction. This varies for different materials.
Then, to get the energy required, the question is, how far do you pull it.
HP is a unit of power (energy per time unit), so in this case, the question is, how far do you pull it per second.
I would also suggest you do calculations with SI units. They are more standard, and generally simpler.
That depends on several other factors, too.
First, get the real force needed - apart from the mass or weight of the object, you also need the coefficient of friction. This varies for different materials.
Then, to get the energy required, the question is, how far do you pull it.
HP is a unit of power (energy per time unit), so in this case, the question is, how far do you pull it per second.
I would also suggest you do calculations with SI units. They are more standard, and generally simpler.
That depends on several other factors, too.
First, get the real force needed - apart from the mass or weight of the object, you also need the coefficient of friction. This varies for different materials.
Then, to get the energy required, the question is, how far do you pull it.
HP is a unit of power (energy per time unit), so in this case, the question is, how far do you pull it per second.
I would also suggest you do calculations with SI units. They are more standard, and generally simpler.
That depends on several other factors, too.
First, get the real force needed - apart from the mass or weight of the object, you also need the coefficient of friction. This varies for different materials.
Then, to get the energy required, the question is, how far do you pull it.
HP is a unit of power (energy per time unit), so in this case, the question is, how far do you pull it per second.
I would also suggest you do calculations with SI units. They are more standard, and generally simpler.
That depends on several other factors, too.
First, get the real force needed - apart from the mass or weight of the object, you also need the coefficient of friction. This varies for different materials.
Then, to get the energy required, the question is, how far do you pull it.
HP is a unit of power (energy per time unit), so in this case, the question is, how far do you pull it per second.
I would also suggest you do calculations with SI units. They are more standard, and generally simpler.
2.4 kgs with battery
1500 horsepower
hp x 2,544.43 = kW
You can do it with less than one horsepower. It's all a matter of torque and gear ratios.
30 hp
50 hp
I have a 1988 25 hp LS Evinrude pull start and I weighed it at 123 lbs.Retired auto tech
50 :1
The generator should be about ¾ hp.
How much horsepower is 439
how much hp is 140cc
About 6.5 hp.
how much cc's is a 6.5 hp engine
Yes, but not very fast.
39 HP
110 HP
1000 hp