**About me**

. The **shape** is a **Trapezoidal** Prism. . . . . . . . . . . . . From the selected basin **shape**, determine the maximum depth in the **pond**. Use our **trapezoidal** **shaped** **pond** **calculator** to . . Step 3: By choosing a rectangular **shape**, the length and width **calculations** . There are four measurements: 7cm, 3cm, 9 cm . AVD Mass and **Volume** **Calculator** - Quickly and easy **calculate** **volume** and mass for common **shapes**. The **shape** you are describing sounds like the **shape** in this diagram: Its **volume** is the area of the **trapezoid** ABCD times . . . The user can enter a desired retention time and AMDTreat will **calculate** the theoretical **volume** of **trapezoidal**-**shaped** **pond** needed to hold the water . . Area and **Volume** Formula for geometrical figures. . It is very difficult . . Step 5: **Calculate** the required storage **volume** (V s) in watershed inches by multiplying the V s /V r ratio by . . . An even better way to **calculate** an average **pond** . **Pond** **Volume**: gallonsHow to **CALCULATE** **Pond** **Volume**. of a cross-section **shape** you will need to **calculate** the end area **volume**. . . **Volume** . . . Frustrum of a prismoid method: A **trapezoidal** . . . . . I now know that you have to **calculate** the area before you can do the **volume**. . . . . the area of an odd-**shaped** **pond** is to divide the **pond** into multiple **trapezoid** **shapes** . . **Volume** of a **Trapezoid**. . . . . . . squares and rectangles the **calculation** is simple using fixed formulae. . . . . . The formula for the **volume** of the **shape**, which may be<br /> drawn as a frustum . down into one or more of these **shape** categories. . can be **calculated** by integral calculus if a formula exists for the **shape's** . . . How to Figure the Area & **Volume** of a **Pond** . . . . . . . many cubic yards of soil are required to build a small **Pond** . . The liner size **calculation** includes a 2' overlap for **pond** . . **Trapezoid**: height * (base1 + base2) / 2: **Trapezoid**: base1 + base2 + height * [csc(theta1) + csc . . . . Understanding the mathematical process involved in **calculating** the **volume** of a **trapezoid** goes to . . . Take the time to **calculate** the **volume** of water in your **pond**. planes at two given elevations to **calculate** the **volume** . . . A 4 sided figure with one pair . Measuring **Pond** Area and **Volume** Circular **pond** **shape** . process involved in **calculating** the **volume** of a **trapezoid** goes . . . . . . More complex regular **shaped** garden **ponds** such as **trapezoid**