What are some synonyms for stunned?

What are some synonyms for stunned?

other words for stunned

• bewildered.
• confused.
• overwhelmed.
• shocked.
• speechless.
• startled.
• surprised.
• stupefied.

How would you describe someone in shock?

Describe the gestures graphically including the body movements, expressions on the face, tears sagging shoulders, sighing etc. Then take the perspective of the person in shock, describe from within like, the trembling walls or blurring images. The phenomenon of worst fears coming alive can be used as well.

What is a synonym for shocking?

appalling, outrageous, scandalous, alarming, staggering, horrifying, offensive, terrible, astonishing, horrific, frightening, shocked, striking, disturbing, shocker, revolting, dreadful, terrifying, surprising, distressing.

How do you express shock in words?

Here’s a list of some common expressions to help you express shock and disbelief.

1. Shock. I was shocked to hear…
2. Disbelief. I just can’t believe…
3. Saying how bad something is. It’s so awful.
4. The after effects.

How do you neutralize gravity?

As of yet, no technology exists to neutralize the pull of gravity. The best way to approximate the feeling of weightlessness on Earth is to ride onboard a plane flying in parabolic arcs that mimic the shape of Saint Louis’s Gateway Arch.

Can gravity be manipulated?

The better news is that there is no science that says that gravity control is impossible. First, we do know that gravity and electromagnetism are linked phenomena. Another way is through new theories from quantum mechanics that link gravity and inertia to something called “vacuum fluctuations.”

How much does it cost to experience zero gravity?

Book The ZERO-G Experience® now for $6700 + 5% tax per person. Each ticket includes 15 parabolas, your own ZERO-G flight suit, ZERO-G merchandise, Regravitation Celebration, certificate of weightless completion, photos, and video of your unique experience.

Is it possible to defy gravity?

Near Earth, we cannot ever escape the pull of gravity. However, small objects can be levitated by using an effect called diamagnetism. Superconductors are strongly diamagnetic, meaning that they magnetize in a way that tends to push them out of strong field regions. Superconductors can be levitated fairly easily.

What does defy gravity mean?

Originally Answered: What is defying gravity? Which means that there is a force to balance gravity at some height leaving a visible gap between floor and object. Of course we levitate just standing there. That you can’t discern the gap between foot and floor does not mean that it doesn’t exist.

What does it mean to defy someone?

English Language Learners Definition of defy : to refuse to obey (something or someone) : to make (something) very difficult or impossible. : to resist or fight (something)

How do rockets defy gravity?

In summary: Rockets take off by burning fuel. Burning fuel produces gas as a byproduct, which escapes the rocket with a lot of force. The force of the gas escaping provides enough thrust to power the rocket upwards and escape the the force of gravity pulling it back to Earth.

What fuel do rockets use?

The petroleum used as rocket fuel is a type of highly refined kerosene, called RP-1 in the United States. Petroleum fuels are usually used in combination with liquid oxygen as the oxidizer.

Why can’t a rocket go straight up?

Why do rockets curve when they fly into space instead of going straight up? A: If a rocket just flew straight up, then it would fall right back down to Earth when it ran out of fuel! Rockets have to tilt to the side as they travel into the sky in order to reach orbit, or a circular path of motion around the Earth.

What are the 3 stages of a rocket?

Stages of a Rocket Launch

• Primary Stage. The primary stage of a rocket is the first rocket engine to engage, providing the initial thrust to send the rocket skyward.
• Secondary Stage. After the primary stage has fallen away, the next rocket engine engages to continue the rocket on its trajectory.
• Payload.

Why does a rocket have two stages?

A multistage rocket, or step rocket, is a launch vehicle that uses two or more rocket stages, each of which contains its own engines and propellant. This staging allows the thrust of the remaining stages to more easily accelerate the rocket to its final speed and height.

What is a 2 stage rocket?

A two-stage-to-orbit (TSTO) or two-stage rocket launch vehicle is a spacecraft in which two distinct stages provide propulsion consecutively in order to achieve orbital velocity. At liftoff the first stage is responsible for accelerating the vehicle.

How do rocket stages work?

The first stage is ignited at launch and burns through the powered ascent until its propellants are exhausted. The first stage engine is then extinguished, the second stage separates from the first stage, and the second stage engine is ignited. The payload is carried atop the second stage into orbit.

What happens to the rocket once its detached?

What happens to the chunks of rocket that are detached during ascension into space? The solid fuel booster rockets from the space shuttle were collected and re-used. They break up, crash into the ocean and sink. If they succeed in fast, inexpensive re-use, it will change the space launch industry.

What is a booster in a rocket?

A booster rocket (or engine) is either the first stage of a multistage launch vehicle, or else a shorter-burning rocket used in parallel with longer-burning sustainer rockets to augment the space vehicle’s takeoff thrust and payload capability.

What are the 4 forces that act on a rocket?

In flight, a rocket is subjected to four forces; weight, thrust, and the aerodynamic forces, lift and drag. The magnitude of the weight depends on the mass of all of the parts of the rocket.

What does equal but opposite mean?

Formally stated, Newton’s third law is: For every action, there is an equal and opposite reaction. The statement means that in every interaction, there is a pair of forces acting on the two interacting objects. The size of the forces on the first object equals the size of the force on the second object.