Weight of Load Given Quantity of Scrap Produced Solution

STEP 0: Pre-Calculation Summary
Formula Used
Weight of Load Scrap = (Bank in Scraper*Density of Material in Scraper Production)
Wload = (B*ρm)
This formula uses 3 Variables
Variables Used
Weight of Load Scrap - (Measured in Kilogram) - Weight of Load Scrap is the weight of one wheel or axle.
Bank in Scraper - (Measured in Cubic Meter) - Bank in Scraper is computed in terms of volume.
Density of Material in Scraper Production - (Measured in Kilogram per Cubic Meter) - Density of Material in Scraper Production is ratio of mass of material to its volume.
STEP 1: Convert Input(s) to Base Unit
Bank in Scraper: 9.8 Cubic Meter --> 9.8 Cubic Meter No Conversion Required
Density of Material in Scraper Production: 1.1 Kilogram per Cubic Meter --> 1.1 Kilogram per Cubic Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Wload = (B*ρm) --> (9.8*1.1)
Evaluating ... ...
Wload = 10.78
STEP 3: Convert Result to Output's Unit
10.78 Kilogram --> No Conversion Required
FINAL ANSWER
10.78 Kilogram <-- Weight of Load Scrap
(Calculation completed in 00.004 seconds)

Credits

Created by Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
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25 Scraper Production Calculators

Speed at Haul and Return in Miles per Hour given Variable Time
Go Speed in Miles per Hour in Scraper Production = (Haul Distance in Feet+Return Distance in Foot in Scraper Production)/(88*Variable Time in Scraper Production)
Variable Time when Haul and Return Distance is in Feet
Go Variable Time in Scraper Production = (Haul Distance in Feet+Return Distance in Foot in Scraper Production)/(88*Speed in Miles per Hour in Scraper Production)
Return Distance in Feet given Variable Time
Go Return Distance in Foot in Scraper Production = (Variable Time in Scraper Production*88*Speed in Miles per Hour in Scraper Production)-Haul Distance in Feet
Haul Distance in Feet given Variable Time
Go Haul Distance in Feet = (Variable Time in Scraper Production*88*Speed in Miles per Hour in Scraper Production)-Return Distance in Foot in Scraper Production
Speed at Haul and Return in Kilometer per Hour given Variable Time
Go Speed in Kmph in Scraper Production = (Haul Distance+Return Distance in Meter)/(16.7*Variable Time in Scraper Production)
Return Distance in Meter given Variable Time
Go Return Distance in Meter = (Variable Time in Scraper Production*16.7*Speed in Kmph in Scraper Production)-Haul Distance
Haul Distance in Meter given Variable Time
Go Haul Distance = (Variable Time in Scraper Production*16.7*Speed in Kmph in Scraper Production)-Return Distance in Meter
Production Required to Determine Number of Scrapers
Go Production Required in Scraper Production = (Bank in Scraper Production/Time in Scraper Production in Hour)
Working Time given Production Required
Go Time in Scraper Production in Hour = (Bank in Scraper Production/Production Required in Scraper Production)
Quantity given Production Required
Go Bank in Scraper Production = (Production Required in Scraper Production*Time in Scraper Production in Hour)
Production Required given Number of Scrapers Needed for Job
Go Production Required in Scraper Production = Number of Scraper in Scraper Production*Production per Unit
Trips per Hour given Production of Scrap by Machines
Go Trips per Hour = (Production Required in Scraper Production/Load in Scraper Production)
Load Given Production of Scrap by Machines
Go Load in Scraper Production = (Production Required in Scraper Production/Trips per Hour)
Production of Scrap by Machines
Go Production Required in Scraper Production = (Load in Scraper Production*Trips per Hour)
Number of Scrapers Needed for Job
Go Number of Scraper = (Production Required in Scraper Production/Production per Unit)
Density of Material given Quantity of Scrap Produced
Go Density of Material in Scraper Production = (Weight of Load Scrap/Bank in Scraper)
Weight of Load Given Quantity of Scrap Produced
Go Weight of Load Scrap = (Bank in Scraper*Density of Material in Scraper Production)
Bank or Quantity of Scrap Produced
Go Bank in Scraper = (Weight of Load Scrap/Density of Material in Scraper Production)
Scraper Cycle Time given Number of Scrapers Pusher can Load
Go Scraper Cycle Time = (Number of Scraper a Pusher*Pusher Cycle Time)
Pusher Cycle Time given Number of Scrapers Pusher can Load
Go Pusher Cycle Time = (Scraper Cycle Time/Number of Scraper a Pusher)
Number of Scrapers Pusher can Load
Go Number of Scraper a Pusher = (Scraper Cycle Time/Pusher Cycle Time)
Working Time given Trips per Hour for Excavating Scrap
Go Working Time in Scraper Production = (Trips per Hour*Cycle Time)
Cycle Time given Trips per Hour for Excavating Scrap
Go Cycle Time = (Working Time in Scraper Production/Trips per Hour)
Trips per Hour for Excavating Scrap
Go Trips per Hour = (Working Time in Scraper Production/Cycle Time)
Production per Unit Given Number of Scrapers Needed for Job
Go Production per Unit = (Production Required/Number of Scraper)

Weight of Load Given Quantity of Scrap Produced Formula

Weight of Load Scrap = (Bank in Scraper*Density of Material in Scraper Production)
Wload = (B*ρm)

What is Scrap?

Scrap consists of recyclable materials left over from product manufacturing and consumption, such as parts of vehicles, building supplies, and surplus materials. Unlike waste, scrap has monetary value, especially recovered metals, and non-metallic materials are also recovered for recycling.

How to Calculate Weight of Load Given Quantity of Scrap Produced?

Weight of Load Given Quantity of Scrap Produced calculator uses Weight of Load Scrap = (Bank in Scraper*Density of Material in Scraper Production) to calculate the Weight of Load Scrap, The Weight of Load Given Quantity of Scrap Produced is defined as the weight of load when we have prior information of bank and density of material . Weight of Load Scrap is denoted by Wload symbol.

How to calculate Weight of Load Given Quantity of Scrap Produced using this online calculator? To use this online calculator for Weight of Load Given Quantity of Scrap Produced, enter Bank in Scraper (B) & Density of Material in Scraper Production m) and hit the calculate button. Here is how the Weight of Load Given Quantity of Scrap Produced calculation can be explained with given input values -> 10.78 = (9.8*1.1).

FAQ

What is Weight of Load Given Quantity of Scrap Produced?
The Weight of Load Given Quantity of Scrap Produced is defined as the weight of load when we have prior information of bank and density of material and is represented as Wload = (B*ρm) or Weight of Load Scrap = (Bank in Scraper*Density of Material in Scraper Production). Bank in Scraper is computed in terms of volume & Density of Material in Scraper Production is ratio of mass of material to its volume.
How to calculate Weight of Load Given Quantity of Scrap Produced?
The Weight of Load Given Quantity of Scrap Produced is defined as the weight of load when we have prior information of bank and density of material is calculated using Weight of Load Scrap = (Bank in Scraper*Density of Material in Scraper Production). To calculate Weight of Load Given Quantity of Scrap Produced, you need Bank in Scraper (B) & Density of Material in Scraper Production m). With our tool, you need to enter the respective value for Bank in Scraper & Density of Material in Scraper Production and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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