Driveway Estimator
Plan base and surface layers for a durable gravel driveway.
Open Driveway EstimatorGravel project planning
Measure once, compare materials, and turn project dimensions into a practical delivery estimate in seconds.
Free instant calculator
Choose a shape and units. Results recalculate on every keystroke, so there is no calculate button.
A gravel coverage calculator turns three measurements, area, depth, and material, into the volume, weight, and cost of stone a project needs. Enter a length and width, or a diameter for a circular bed, pick a finished depth, and choose a material. The tool multiplies area by depth to find volume, then applies that material's bulk density to convert volume into pounds, US tons, and metric tonnes. Every result updates as you type, so comparing a deeper base or a heavier stone takes seconds instead of a separate spreadsheet.
The main benefit is avoiding two costly mistakes: ordering too little gravel and running short mid-project, or ordering too much and paying to haul away the surplus. A calculator built on the actual bulk density of the chosen stone gives a closer estimate than multiplying by one generic number for every material. It also lets you compare pea gravel against crushed stone or base rock before calling a supplier, because a cubic yard of each one weighs a different amount.
People use a gravel calculator for driveways, walking paths, drainage trenches, decorative garden beds, and patio bases. Homeowners use it to plan a weekend project and get a rough delivery estimate. Landscapers use it to check a takeoff in the field before submitting a bid. Contractors use it to compare base rock and surface gravel quantities on a driveway with two layers. Every use case runs on the same math: area times depth equals volume, and volume times density equals weight.
This calculator has four working parts. The shape and dimension inputs set the area. The depth input sets the thickness of the finished layer. The material selector applies the correct bulk density, or accepts a custom density for a stone that is not listed. The compaction buffer adds five or ten percent to plan for settling and waste. Together they produce five results: area, volume, weight, bag count, and an optional cost estimate.
Start by measuring the usable space rather than the entire property. For a rectangle, record the longest length and widest width. For a circular bed, measure straight through the center. A triangular corner needs its base and the perpendicular height. Keep both measurements in the same unit. Irregular areas can be divided into smaller rectangles, circles, and triangles, then added together.
Next, choose the finished gravel depth. Decorative beds typically need one to two inches, paths need two to three inches, and structural projects need deeper, layered sections. Select the stone type because equal volumes of pea gravel, limestone, and base rock have different weights. Add five or ten percent when the grade is uneven or material will compact.
Read the live area, volume, weight, bag count, and optional cost. The unit toggle switches every input and output between imperial and metric at once, so a length entered in feet becomes meters and a depth in inches becomes centimeters, without re-entering the project shape. Visitors outside the United States can plan the same project in cubic meters and metric tonnes using the identical formulas. Suppliers may round to half-ton or whole-yard increments, so always confirm how your local yard sells and delivers material.
Use Length (ft) × Width (ft) × Depth (ft) = Cubic Feet. Convert an inch depth to feet by dividing by 12. A 20-foot by 10-foot area at 3 inches is 20 × 10 × 0.25 = 50 cubic feet. Divide by 27 to obtain 1.85 cubic yards. This geometric volume represents the finished layer before waste or settlement.
Use π × (Diameter ÷ 2)² × Depth (ft). A 10-foot circle has a 5-foot radius. At 3 inches deep, π × 5² × 0.25 = 19.6 cubic feet, or 0.73 cubic yards. Measure the diameter through the true center, not along a short chord.
Delivered aggregate contains voids and may settle as it is spread and compacted. Spillage, an uneven subgrade, curved edges, and grading transitions also consume material. Add the buffer after calculating geometric volume so volume and weight remain consistent.
A sloped bed follows the same area and depth math, but measure depth perpendicular to the finished surface rather than straight down, or the volume will run short on the downhill side. Break a long slope into two or three step sections if the grade changes sharply, and calculate each section on its own. Loose base aggregate can lose a large share of its volume once fully compacted in place, with some sources citing a reduction near 30 percent for a dense-graded base course. That figure describes a specified compacted section, not the finished depth entered in this calculator, so treat it as a reason to confirm a large base-rock order with your supplier rather than as a factor to stack on top of the five or ten percent buffer.
| Buffer | When to use |
|---|---|
| +5% | Firm base, machine compaction, regular geometry |
| +10% | Loose soil, hand tamping, irregular shape |
Landscape suppliers often load by weight even when a project is measured by volume. Multiply cubic feet by bulk density in pounds per cubic foot, then divide by 2,000 for US tons. Moisture, particle grading, and quarry source cause real loads to vary, so the chart is an estimating reference rather than a weigh ticket.
| Material | lb/cu ft | kg/m³ | lb/cu yd | US tons/cu yd |
|---|---|---|---|---|
| Pea Gravel | 105 | 1,680 | 2,835 | 1.42 |
| Crushed Stone #57 | 100 | 1,600 | 2,700 | 1.35 |
| Crushed Stone #411 | 95 | 1,520 | 2,565 | 1.28 |
| River Rock | 100 | 1,600 | 2,700 | 1.35 |
| Decomposed Granite | 106 | 1,700 | 2,862 | 1.43 |
| Base Rock / Class 5 | 110 | 1,760 | 2,970 | 1.49 |
| Limestone | 97 | 1,550 | 2,619 | 1.31 |
Ask whether a quote uses a US short ton or metric tonne. In the United States, “ton” generally means 2,000 pounds. One metric tonne is 2,204.62 pounds. Use our aggregate cubic yards to tons converter when comparing supplier units.
The same table works in reverse for anyone who already has a tonnage quote and needs the matching volume. Divide 2,000 pounds by a material's pounds per cubic foot, then divide by 27, to see how many cubic yards one US ton contains. Pea gravel at 105 lb/ft³ gives about 0.70 cubic yards per ton. Crushed stone #57 at 100 lb/ft³ gives about 0.74 cubic yards per ton. Base rock at 110 lb/ft³ gives about 0.67 cubic yards per ton. Suppliers who quote by the ton expect buyers to know this reverse figure, and it explains why a ton of heavier stone always looks like a smaller pile than a ton of lighter stone for the same price.
Build 4 to 6 inches of compacted base rock plus 2 to 3 inches of surface gravel, for 6 to 9 inches total. Weak soil and heavy vehicles can require an engineered section.
Two to three inches provides useful coverage without making loose stone unnecessarily difficult to walk through.
Use one to two inches of decorative stone over prepared, permeable landscape fabric.
Provide 6 to 12 inches of clean #57 stone around perforated pipe, following the designed trench profile.
| Project type | Min depth | Max depth | Recommended material |
|---|---|---|---|
| Driveway | 6 in | 9 in | Base rock + #57 |
| Path | 2 in | 3 in | Pea gravel or DG |
| Garden bed | 1 in | 2 in | River rock |
| French drain | 6 in | 12 in | Clean #57 stone |
Geologists sort loose rock fragments by particle size. Gravel generally means fragments larger than sand and smaller than cobbles, roughly one tenth of an inch to two and a half inches across, depending on the classification system used. Two scales are common: the Udden-Wentworth scale used in United States geology, and the international ISO 14688 standard, which splits gravel into fine, medium, and coarse bands. For a landscaping or construction project, the practical grade name a supplier uses, such as pea gravel, #57 stone, or Class 5 base, matters more than the exact scientific boundary.
Smooth, rounded particles feel comfortable underfoot and suit patios, dog runs, play areas, and decorative beds. Average density is about 105 lb/ft³, though the stone does not interlock under traffic.
Angular faces lock together. Clean #57 drains; #411 and Item #4 include fines for a dense compacted base. Densities typically range from 95 to 110 lb/ft³.
Tumbled, multicolored rock gives beds and drainage swales a natural finish. It averages roughly 100 lb/ft³ and needs a defined edge on slopes.
Fine, warm-toned granite compacts into a firm path, especially when stabilized. Its average loose density is approximately 106 lb/ft³.
A graded blend of crushed aggregate and fines forms strong driveway, patio, and pavement foundations. It is one of the densest choices at about 110 lb/ft³.
Bulk gravel commonly costs about $15 to $50 per ton before delivery, while 0.5-cubic-foot bags often cost $5 to $8. Bagged material is convenient for small repairs and difficult access, but bulk usually becomes economical above one cubic yard.
Dump-truck minimums commonly range from 5 to 10 cubic yards. Haul distance, fuel surcharges, truck size, and whether a safe dumping location is available all affect the delivered price. Confirm that the driveway and overhead clearance can accommodate the vehicle.
A gravel calculator should answer the first question most people ask: how much gravel do I need? The answer starts with measured area and finished depth, then converts volume to weight with the correct bulk density. This page works as a gravel yardage calculator, gravel tonnage calculator, and gravel cost estimator in one place. It keeps each unit visible so you can compare a supplier quote with your own measurements.
Use the tool as a gravel coverage estimator when you know the length and width of a bed, path, drive, or drain. It also serves as a gravel volume estimator for circles and triangles. The area result explains gravel coverage square feet, while the selected thickness makes it a practical gravel depth calculator. Together, those values define the true gravel coverage area. Do not use the widest dimensions for a curved project unless you want a deliberately conservative order.
A supplier's gravel coverage chart often lists square feet per ton at several depths. That is useful for a quick check, but the result changes with material density. Our density table gives a more specific gravel coverage per ton estimate. It also shows gravel weight per cubic yard for each listed aggregate. Compare both methods before ordering a large load.
For rounded stone, the pea gravel coverage estimator uses 105 lb/ft³, equal to about 1,680 kg/m³. For angular aggregate, the crushed stone calculator includes #57 stone at 100 lb/ft³, or about 1,600 kg/m³. The general tool is also an aggregate calculator for river rock, decomposed granite, base rock, and limestone. A landscape gravel calculator must use the chosen material rather than one universal tons-per-yard factor.
If a quote lists weight instead of volume, use the cubic yards to tons gravel converter. It performs the same density-based calculation in either direction. This matters when a quarry bills by scale weight but the project drawing lists cubic yards. A bulk gravel calculator also helps compare full truckloads with bagged material; 54 half-cubic-foot bags equal one cubic yard before any allowance.
Estimating gravel for driveway construction requires separate base and surface layers. Dense base supports traffic, while the surface grade controls traction and appearance. Enter each compacted depth and choose a five- or ten-percent allowance that suits the subgrade and placement method.
Clean open-graded stone is the usual choice when estimating gravel for drainage. The drain tool subtracts the round pipe from the rectangular trench before adding the selected allowance. For a gravel path installation, prepare a firm base, provide edging, and use a two- to three-inch surface layer unless accessibility or a project specification calls for another section.
The optional price field estimates material only. A complete gravel delivery cost also includes the haul charge, minimum-load fee, tax, spreading, equipment, and any disposal expense. Ask whether the quoted rate is per US ton, metric tonne, or cubic yard. Keep the price field empty when you only need quantity; the calculator will hide the cost result rather than displaying a misleading zero.
For a final check, measure each area again, confirm the depth after compaction, verify the quarry product and density, and ask how the supplier rounds orders. The calculated quantity is a planning value. The scale ticket and delivered load are the final record of weight.
Start with the finished dimensions, not the size of the delivery pile. Mark the project edges and measure length and width at several points. Divide bends, tapers, and islands into simple shapes. Calculate each shape separately, then add the results. This avoids paying for a large rectangle that includes lawn, paving, or planting that will not receive stone.
Check the depth with the complete installation in mind. A driveway may need excavation, separation fabric, a dense base, and a different surface aggregate. A decorative bed may need only a shallow stone layer over prepared soil. A drain needs enough clean stone below, beside, and above the pipe. The number entered in the calculator should represent the planned finished layer for that material.
Then verify the sale unit. If the quarry sells by weight, compare the calculated tons with its product-specific tons-per-yard factor. If the landscape yard sells by volume, ask whether its loader bucket is measured loose or heaped. For bags, check the package label because not every bag contains 0.5 cubic foot. The bag result on this site uses that standard size and always rounds up to a whole bag.
Use one allowance only. Adding ten percent in the calculator and asking a supplier to add another ten percent creates an unnecessary surplus. Five percent often suits regular geometry over a firm prepared base. Ten percent is more suitable for irregular edges, uncertain grades, hand placement, or expected settlement. A project specification or local professional should control when it gives a different factor.
Finally, write down the inputs with the result. Record dimensions, depth, shape, material, density, allowance, price basis, and date. Send that short list when requesting quotes. Suppliers can spot a unit mismatch or unsuitable product more easily when the assumptions are visible. Round up only after the unrounded quantity has been checked against truck capacity, minimum orders, and sale increments.
Plan base and surface layers for a durable gravel driveway.
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