Volume of silo

QuestionA silo, which is in the shape of a cylinder, is 16 ft in diameter and has a height of 30 ft. The silo is three-fourths full. Find the volume of the portion of the silo that is not being used for storage. Use 3.14 for π.Asked in United StatesExpert Verified SolutionAnswerExplanationCalculate the volume of the entire silo using the formula for the volume of a cylinder, $$V = πr²h$$, where $$r$$ is the radius and $$h$$ is the height.The diameter of the silo is $$16 ft$$, so the radius $$r$$ is half of that, $$r = 16/2 = 8 ft$$.The height $$h$$ is given as $$30 ft$$.Substitute the values into the formula: $$V = π × (8 ft)² × 30 ft = 3.14 × 64 ft² × 30 ft$$.Calculate the volume of the portion not being used for storage. Since the silo is three-fourths full, the unused portion is one-fourth of the total volume.The volume not used for storage is $$1/4$$ of the total volume, so we multiply the total volume by $$1/4$$.$$1/4$$ × $$3.14 × 64 ft² × 30 ft = 3.14 × 16 ft² × 30 ft = 3.14 × 480 ft³ = 1507.2 ft³$$.ExplainSimplify this solutionGauth AI Pro😉 Want a more accurate answer?Get step by step solutions within seconds.

MathGeometryGeometry questions and answersA company that manufactures storage bins for grains made a drawing of a silo. The silo has a conical base, as shown below: 4 ft 6A 10.5 ft Which of the following could be used to calculate the total volume of grains that can be stored in the silo? (6 points) n(61)+(24) + (10.5ft – 641)+(24) n(26)-(6ft) + n(10.5ft - 6ft)?(2Ft) n(6ft (28) + n(21°10.5t - 6t)Your solution’s ready to go!Our expert help has broken down your problem into an easy-to-learn solution you can count on.See AnswerQuestion: A company that manufactures storage bins for grains made a drawing of a silo. The silo has a conical base, as shown below: 4 ft 6A 10.5 ft Which of the following could be used to calculate the total volume of grains that can be stored in the silo? (6 points) n(61)+(24) + (10.5ft – 641)+(24) n(26)-(6ft) + n(10.5ft - 6ft)?(2Ft) n(6ft (28) + n(21°10.5t - 6t)Show transcribed image textHere’s the best way to solve it.Here’s how to approach this questionThis AI-generated tip is based on Chegg's full solution. Sign up to see more!Identify the fact that the silo consists of both a cylindrical part and a conical part.Previous question Next questionTranscribed image text: A company that manufactures storage bins for grains made a drawing of a silo. The silo has a conical base, as shown below: 4 ft 6A 10.5 ft Which of the following could be used to calculate the total volume of grains that can be stored in the silo? (6 points) n(61)+(24) + (10.5ft – 641)+(24) n(26)-(6ft) + n(10.5ft - 6ft)?(2Ft) n(6ft (28) + n(21°10.5t - 6t) n(2ft)(6ft) + n(2ft) (10.5ft - 6ft)

We have a grain silo that consists of a cylindrical main section and a hemispherical roof. The total volume of the silo is given as 15,000 cubic feet and the height of the cylindrical part is 30 feet. We are asked to find the radius of the silo. Show more… Fasiha Binat Zafar and 58 other Algebra educators are ready to help you. Ask a new question Algebraic Equation Setup and Solving This concept involves forming an equation by adding the volumes of individual components of a composite shape and setting it equal to a given total volume. The equation is then solved for the unknown variable (in this case, the radius), requiring skills in algebraic manipulation and solving equations. Composite Solid Analysis This concept pertains to the process of calculating the total volume of an object made up of several simple geometric shapes by summing the volumes of each individual part. This approach is useful in solving problems where an object comprises multiple sections, each with its own volume formula. Hemisphere Volume Calculation This concept involves finding the volume of a hemispherical shape, which is exactly half the volume of a sphere. Using the sphere volume formula V = (4/3)?r³, the hemisphere volume is calculated as V = (2/3)?r³. It is crucial when the object has a rounded section that contributes to its overall volume. Cylinder Volume Calculation This concept involves determining the volume of a cylindrical shape by multiplying the area of its circular base by its height, using the formula V = ?r²h. It is essential for understanding how the volume of a cylindrical section contributes to the total volume of a composite object.

Deprecation noticeThis plugin is not further developed and it might break with upcoming Cumulocity releases. Use it at your own risk.The repository is archived but feel free to fork & adapt it to your needs in a new repo.Cumulocity Silo Capacity Widget Plugin Cumulocity Silo Capacity Widget is the Cumulocity module federation plugin created using c8ycli. This plugin can be used in Application Builder or Cockpit. It displays a configurable silo capacity graphic with fill levels, foreground image overlay, optional background image and colorized thresholds.Please choose Silo Capacity Widget release based on Cumulocity/Application builder version:APPLICATION BUILDER CUMULOCITY SILO CAPACITY WIDGET PLUGIN 2.0.x>=1018.0.0 1.2.x2.0.x>=1016.0.0 1.1.xFeaturesConfigurable cylinder: Set the height, width, color and location of the cylinder in your widgetConfigurable volume calculation Display remaining volume or fill volumeOptional foreground image: Upload and dynamically position a foreground image over the top of the cylinderOptional background image: Upload and dynamically position a background image behind the cylinderConfigurable labels: Add your own description labels for the levelsOptional Thresholds: Set high and medium thresholds with custom colorsDevelopment debug mode: Use the debug mode to check the cylinder range and to accurately position your images over the cylinderPrerequisiteCumulocity c8ycli >=1018.x.xInstallationRuntime Widget Deployment?This widget support runtime deployment. Download Runtime Binary and install via Administrations --> Ecosystems --> Applications --> PackagesQuickStartThis guide will teach you how to add the widget in your existing or new dashboard.Open the Application Builder application from the app switcher (Next to your username in the top right)Add a new dashboard or navigate to an existing dashboardClick Add WidgetSearch for Silo CapacitySelect Target Assets or DevicesClick SaveCongratulations! Silo Capacity is configured.User GuideConfiguration optionsThe widget configuration page contains a number of configuration attributes.Title : Enter the title which will display at the top of your widgetTarget Assets or Devices : Select your deviceMeasurement Configuration sectionMeasurement : Select the measurement fragment and series from the dropdownNOTE: Once the Target Assets or Devices and Measurement information has been populated, you can click the 'Save' button to configure the widget with the default settingsMaximum fill level label : Enter the label which will be displayed above the maximum fill

Mass ow silos 3. Dilute phase pneumatic conveying design and calculation 4. IBC bin mixing equipments 5. Measuring degree of mixing -------------- 4/19 9/27/2019 Calculation method for Design Silos and Hoppers - Silos and hopper Flow of powder - Flowability issues solving - Discharge through… PowderProcess.net Engineering Resources Menu access -------------Top 5 New 1. Continuous Dry Mixing 2. Mixing speed 3. Mixer capacity optimization 4. Batch / continuous mixing comparison 5. Improve energy e ciency of your process Table 1 : Silo design parameters 5/19 9/27/2019 Calculation method for Design Silos and Hoppers - Silos and hopper Flow of powder - Flowability issues solving - Discharge through… Key silo design parameters Discharge diameter (avoids arching and ratholing) PowderProcess.net Engineering Resources The discharge angle Menu access The volume of the silo The discharge rate from the silo 1.2 Calculating the silo discharge diameter with the method of Jenicke 1 Online Engineering Schools a 2 Used Industrial Equipment a 3 Bosch Hand Tools a 4 Energy Saving Tips a 5 Bosch Power Tools a STEP 1 - Get information on the powder The following data must be known in order to calculate the silo : The Powder Flow Function, the wall friction angle, the static angle of internal friction Knowing the characteristics of the product to discharge is the 1st and mandatory step to properly design a hopper. The powder characteristics can be determined thanks to a shear tester (see section on powder characteristics). From these characteristics, a critical discharge diameter can be calculated. The critical discharge diameter is the diameter under which the product will risk to arch. It must be noted that different diameters can be calculated depending on the type of bin to be implemented STEP 2 - Calculate the hopper angle for mass ow It is usually desirable to have a mass ow happening in silos or hoppers. Jenicke has tabulated, for different wall friction angle and internal friction angle the maximum hopper angle for which we can get a mass ow. It is 1st necessary to know if a conical hopper shape is preferred or a wedge-shaped