37 Example Sentences Showcasing the Meaning of 'Counterweight'
In physics experiments, a counterweight is often employed to ensure accurate measurements of force and motion.
The designer added a counterweight to the chandelier to ensure it hung evenly from the ceiling without tilting.
When constructing a tall building, architects and engineers consider using counterweights to prevent sway during strong winds.
The architect added a counterweight to the cantilevered structure to ensure its stability.
The young engineer carefully adjusted the counterweight on the crane to prevent it from tipping over during construction.
The chef used a counterweight system to evenly distribute the hanging pots and pans in the kitchen.
The astronaut relied on a carefully calibrated counterweight system to move effortlessly in the microgravity environment of the space station.
To stabilize the drone's flight, the pilot attached a counterweight to the camera gimbal for smooth aerial footage.
In automotive engineering, some vehicles use a counterweight system to balance the rotating components of the engine, reducing vibrations.
During bridge construction, engineers utilize counterweights to stabilize sections being lifted into place by cranes.
To stabilize the wing of the airplane, engineers incorporated a counterweight mechanism to balance aerodynamic forces during flight.
In robotics, a counterweight is often utilized to maintain the robot's balance and stability when performing complex tasks.
The artist suspended a large sculpture from the ceiling, employing a counterweight to offset its weight and create a visually striking installation.
The bridge's engineering design incorporated a counterweight system to manage the load and ensure the structure's durability.
The aircraft's wings were equipped with counterweights to maintain balance during flight, contributing to the plane's overall stability.
The master mariner adjusted the ship's ballast, including the counterweight, to ensure proper trim and stability in rough seas.
The film crew strategically placed a counterweight on the boom microphone to capture clear audio while filming the outdoor scene.
When designing a swing bridge, engineers incorporate counterweights to facilitate the smooth rotation of the bridge span for passing boats.
In amusement parks, roller coasters sometimes incorporate counterweights to control the speed and momentum of the ride's thrilling drops and loops.
The engineer installed a counterweight system in the elevator to ensure smooth and controlled movement between floors in the high-rise building.
The metallurgist adjusted the furnace's counterweight to regulate the pressure and temperature, ensuring optimal conditions for alloy production.
The car designer implemented a counterweight mechanism to improve the vehicle's balance and handling, especially during sharp turns.
The bridge's drawspan featured a massive counterweight that allowed ships to pass underneath without disrupting the flow of traffic.
The wind turbine was equipped with a counterweight system to adjust the blades' pitch and optimize energy generation based on wind conditions.
The clockmaker delicately adjusted the counterweight on the pendulum to ensure the grandfather clock kept accurate time over the years.
In theme park attractions like drop towers, a counterweight system is used to control the ascent and descent speed, enhancing the thrill for riders.
The installation of a large artwork in the museum required a counterweight system to lift and position the piece carefully without causing damage.
The engineer designed a robotic exoskeleton with a counterweight system to assist individuals with mobility challenges in walking and standing.
The sculptor created a kinetic art installation, where the counterweight's movement added an element of dynamic and ever-changing aesthetics.
The aerospace engineer fine-tuned the spacecraft's counterweight distribution to ensure stable navigation and control during interplanetary travel.
The ship's captain adjusted the sailboat's keel counterweight to maintain stability and prevent capsizing in the unpredictable ocean currents.
The engineer implemented a counterweight in the suspension bridge design to absorb and balance the dynamic forces caused by heavy traffic.
The sculptor crafted a kinetic sculpture, utilizing a counterweight to create an ever-changing dance of forms and shadows.
The pilot adjusted the aircraft's trim, including the counterweight, to maintain level flight and minimize fuel consumption.
The engineer installed a counterweight on the drawbridge, allowing it to open and close smoothly to accommodate passing ships.