Sentences with Counterweight

The crane used a counterweight to balance its long arm while lifting heavy materials.

The seesaw at the playground had a counterweight so that children of different sizes could play together safely.

In physics experiments, a counterweight is often employed to ensure accurate measurements of force and motion.

The ancient trebuchet used a massive counterweight to launch projectiles over castle walls during battles.

For the puppet show, the puppeteer attached a counterweight to the strings to control the marionette's movements on stage.

The designer added a counterweight to the chandelier to ensure it hung evenly from the ceiling without tilting.

A counterweight system in elevators ensures that the cab remains level as it moves up and down the building.

In sailing, a counterweight can help stabilize a boat against the force of strong winds and waves.

When constructing a tall building, architects and engineers consider using counterweights to prevent sway during strong winds.

The gymnast adjusted the counterweight on the uneven bars to match her body weight, ensuring stability during her routine.

In automotive engineering, some vehicles use a counterweight system to balance the rotating components of the engine, reducing vibrations.

The clockmaker adjusted the counterweights inside the grandfather clock to ensure its pendulum swung with precision and accuracy.

During bridge construction, engineers utilize counterweights to stabilize sections being lifted into place by cranes.

A counterweight system in some theater curtains allows for smooth and controlled opening and closing during performances.

To stabilize the wing of the airplane, engineers incorporated a counterweight mechanism to balance aerodynamic forces during flight.

The archer adjusted the counterweight on his bow to achieve a perfect balance, ensuring accurate shots at the target.

In robotics, a counterweight is often utilized to maintain the robot's balance and stability when performing complex tasks.

The carnival ride had a counterweight system that allowed it to move smoothly up and down, providing an enjoyable experience for riders.

A counterweight on the end of a fishing rod helps to cast the line further into the water, improving the angler's reach.

When designing a swing bridge, engineers incorporate counterweights to facilitate the smooth rotation of the bridge span for passing boats.

The antique grandfather clock required careful adjustment of its counterweights to ensure accurate timekeeping and chime sequences.

The pendulum clock's consistent ticking is due to the counterweight's regulation, ensuring uniform swings and timekeeping accuracy.

In amusement parks, roller coasters sometimes incorporate counterweights to control the speed and momentum of the ride's thrilling drops and loops.

A counterweight attached to the end of a crane's jib allows for more extended reach and stability when lifting objects at construction sites.

The antique scales in the museum utilized a counterweight system, reflecting the historical methods used to measure goods in ancient markets.

The ancient catapults employed a counterweight mechanism to hurl projectiles with significant force during medieval sieges.

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.

In historical architecture, the massive stone blocks were lifted into place using counterweight systems, showcasing ancient engineering techniques.

The pendulum of a clock swings consistently due to the precise adjustment of its counterweight, maintaining accurate timekeeping throughout the day.