Parabolic 3D Models

Find the best Parabolic 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

You May Also Like :

Anonymous1765416710

Anonymous1762863395

Anonymous1758017993

Anonymous1764847602

Create a 3D scientific visualization of a parabolic surface defined by the function z = x² + y². The plot must be fully three-dimensional, with smooth shading, realistic lighting, and a gradient colormap transitioning from cool colors at low values to warm colors at high values. Display the axes labeled X, Y, and Z, with numerical tick marks from -2 to 2 on X and Y, and from 0 to 8 on Z. Use a clean white background, subtle grid lines, and a perspective camera angle slightly above the surface so the curvature is clearly visible. Render the paraboloid with a glossy, reflective material to emphasize depth and shape.
3D render of a smooth paraboloid surface with gradient colors (cyan to yellow), but WITHOUT any numbers, axis labels, ticks, or small text. No grid lines, no annotations, only the clean surface with soft lighting on a dark background.

Anonymous1763939729

Anonymous1764749706

Anonymous1763942892

Anonymous1764393040

Anonymous1711292896

Futuristic holographic 3D simulation of a parabolic ground surface, colored in metallic gold. Function z = x^2 + y^2 forming a smooth curved paraboloid. Transparent grid background with glowing 3D axis labels X, Y, Z. Title "Opción 4: Suelo parabólico" rendered in sleek tech typography. High-tech engineering visualization, high resolution, scientific precision.

Anonymous1764216803

haz la antena principal, y elimina la del fondo.
hazla detallada.

Anonymous1760034199

*A clear acrylic parabolic measuring vessel designed for a mathematical square-root demonstration. The vessel is 30 cm long, 20 cm wide at the top, and 10 cm tall. Its cross-section is an exact parabola following y = x², reaching a maximum depth of 10 cm at the center. The acrylic is 4–5 mm thick, fully transparent, polished, and smooth. It has a flat acrylic base plate and two curved parabolic side walls formed by heat bending. Small acrylic support braces are attached at both ends. Along the top inner edge on the right side, place precise measurement labels showing square-root values corresponding to x = √y. The vessel is open-top and partially filled with water to show the horizontal waterline intersecting the parabolic walls. The scene is clean, scientific, and realistic, with accurate proportions and clear lighting.*

Anonymous1763619451

一个真实的卫星天线抛物面模型，具有分层模块化结构，包含：

固定部分（不旋转）：
- 垂直圆柱形混凝土基座，底部固定在地面
- 基座顶部的方位角旋转平台（仅水平旋转）
- 金属支撑立柱，从基座延伸向上

可旋转部分（独立控制）：
- 大型白色抛物面反射器，可独立俯仰旋转（主要可控部件）
- U型支撑臂架，连接天线盘面两侧
- 馈源喇叭，位于抛物面焦点处
- 仰角俯仰机构，带有清晰可见的旋转轴

结构要求：
- 基座必须是完全独立的对象，永远保持垂直
- 天线盘面和支撑臂作为一个组，可以绕水平轴俯仰
- 仰角旋转轴位于天线盘面的中心平衡点
- 基座和可旋转部分之间有明确的机械枢轴连接点
- 层级结构清晰：base_mount（基座）→ elevation_pivot（仰角枢轴）→ dish_reflector（天线盘面）

材质和细节：
- 基座：深灰色混凝土材质，粗糙表面
- 天线盘面：白色金属，光滑抛物面
- 支撑结构：工业级钢材，带有螺栓和焊接痕迹
- 机械连接点：清晰可见的旋转轴承和枢轴
- 真实的磨损和风化效果

对象命名（必须）：
- "base_mount" - 固定基座（不参与俯仰旋转）
- "elevation_pivot" - 仰角旋转组（包含所有可俯仰部件）
- "dish_reflector" - 天线盘面（主要反射器）
- "support_arm" - U型支撑臂
- "feed_horn" - 馈源喇叭

风格：真实、工业、机械、细节丰富、专业工程设计
尺寸：中型卫星通信天线（直径约3-5米）
视角：从稍低角度仰视，展示完整结构

重要提示：确保基座和天线盘面是完全独立的网格对象，便于程序化控制旋转

Anonymous1763357342

Anonymous1762397466

Anonymous1749676138