Work problem, physics solution

In summary, the conversation discusses the challenges of planting large, heavy trees for customers with retainer walls. The speaker suggests building their own pulley system to save time and money. They also mention considering alternative options such as a Griphoist or Tirfor winch. The conversation also mentions the possibility of buying a crane and providing a free rental to customers instead of offering free manpower.
  • #1
zheiland
1
0
I work at a nursery in California where we go out and plant the trees that we sell. Some of these trees are in 36" boxes and weigh up to 1700 lbs. Many times customers have 3-5 feet retainer walls and don't want to pay for a crane, and the planting crew is forced to hand lift these boxes inch by inch along a make shift ramp. I figured it would save a lot of time and money if we just built our own pulley system. Any suggestions on schematics or possible solutions to the problem?
 
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  • #2
So at the moment you give your customers the extra manpower and time required to build ramps free of charge. Have you worked out if it's cheaper for you to buy a crane and give them a free crane rental instead of free manpower?

Perhaps look at a Griphoist or Tirfor winches? The problem might be finding a suitable ground anchor to fix the other end to.
 

What is a work problem in physics?

A work problem in physics refers to a situation where an object is acted upon by a force and moves a certain distance in the direction of that force. The work done in this scenario can be calculated using the equation W = Fd, where W is work, F is force, and d is distance.

What are some common units for work in physics?

The most common units for work in physics are joules (J) and foot-pounds (ft-lb). Joules are typically used in the metric system, while foot-pounds are used in the imperial system. Other units of work include calories, ergs, and electron volts.

How is work related to energy?

Work and energy are closely related concepts in physics. Work is defined as the energy transferred to or from an object by a force acting on it. This means that when work is done on an object, its energy changes. Similarly, when an object does work, it loses or gains energy depending on the direction of the force.

What is the difference between positive and negative work in physics?

Positive work refers to the situation where the applied force and the displacement of the object are in the same direction. This means that the force is doing work on the object, and the object is gaining energy. Negative work, on the other hand, occurs when the force and displacement are in opposite directions, resulting in a decrease in the object's energy.

How can I use work problems to calculate power?

Power is defined as the rate at which work is done, or the amount of work done per unit of time. To calculate power, you can use the equation P = W/t, where P is power, W is work, and t is time. This means that by knowing the amount of work done and the time it took, you can determine the power of an object or system.

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