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Blast or launch.
The cost to place 1kg into low Earth orbit (LEO) can vary depending on the launch provider and the specific mission requirements. However, on average, it can range from $5,000 to $30,000 per kg. Factors that can influence cost include the launch vehicle used, payload size, and whether the launch is a dedicated or rideshare mission.
A blast deflector plate is a safety device used in rocket launches to protect the rocket and launch pad from exhaust blast damage. It is typically a thick metal plate placed beneath the rocket engines to reflect and redirect the intense heat and pressure generated during liftoff away from the launch vehicle and surrounding infrastructure.
Liquid fluorine is highly reactive, volatile, and dangerous to handle, making it challenging to use as an oxidizer in rocket propulsion systems. Its extreme reactivity with virtually all materials, including metals, poses significant safety risks and technical challenges that outweigh its benefits as an oxidizer. Additionally, alternative oxidizers like liquid oxygen are more widely used due to their proven reliability, storability, and compatibility with conventional materials.
The largest telescope put into orbit is the James Webb Space Telescope (JWST). Scheduled to launch in late 2021, the JWST will have a mirror diameter of 6.5 meters, significantly larger than the Hubble Space Telescope.
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A scatter plot would be the most useful figure for showing how paper ball size affects launch distance. This type of figure allows for the visualization of individual data points, illustrating the relationship between the two variables. By plotting the size of the paper balls on one axis and the corresponding launch distances on the other, patterns and trends can be easily identified. Additionally, the scatter plot can help highlight any potential correlations or outliers in the data.
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The distance is 500feet
The pull back angle of a catapult affects the distance by determining the trajectory of the projectile. A larger pull back angle typically results in a higher launch angle, which can increase the distance the projectile travels. However, the optimal pull back angle depends on various factors, such as the weight of the projectile and the force of the launch mechanism.
Yes, the angle at which an object is projected affects the path of its projectile motion. A higher launch angle will result in a longer flight time and distance, while a lower launch angle will result in a shorter, more vertical trajectory.
Height affects distance by influencing the trajectory and angle at which an object is launched or thrown. A higher launch angle can result in greater distance if the initial velocity is maintained. Additionally, taller individuals may have longer limbs, allowing them to cover more ground with each step when running or walking.
The weight of an object on a catapult affects how far it goes by influencing the force needed to launch it. A heavier object requires more force to be launched, which can impact the distance it travels. In general, a lighter object will be easier to launch and may reach further distances compared to a heavier object.
About 4 miles to the water launch.
The pull-back angle can affect the launch distance by changing the trajectory of the object being launched. A larger pull-back angle can result in a higher launch angle, which may increase the height of the trajectory and potentially increase the distance. However, too large of a pull-back angle may also reduce the launch speed, which can decrease the overall distance.
The crawler transporter takes the space shuttle from the Vehicle Assembly Building to the launch pad, which is usually a distance of about 3 to 4 miles. It moves very slowly to ensure a smooth and controlled journey for the shuttle. Once the shuttle is at the launch pad, the crawler transporter moves to a safe distance away from the launch site.
To determine the launch velocity of a projectile, you can use the projectile motion equations. By measuring the initial height, horizontal distance traveled, and the angle of launch, you can calculate the launch velocity using trigonometry and kinematic equations.