Wiki User
∙ 10y ago90
Wiki User
∙ 10y agoYou may set the correct distance by trying different angles so that you feel confortable when climbing the ladder. Approximately between 80 to 130 cm. But it is the correct angle that can tell you the adequate distance from the wall. Only by climbing a ladder you know it. I advise you to put a piece of rubber under the ladder so that it can't slip.
Probably because Polycrates, ruler of Samos, Pythagoras' hometown, was making his plans difficult to achieve, some say he was overwhelmed with public duties in Samos
In a trigonometric equation, you can work to find a solution set which satisfy the given equation, so that you can move terms from one side to another in order to achieve it (or as we say we operate the same things to both sides). But in a trigonometric identity, you only can manipulate separately each side, until you can get or not the same thing to both sides, that is to conclude if the given identity is true or false.
125 is 100 percent.125/100 =1.25 is 1 percent.This value times 30 gives you the 30 percent.Solution: 37.5You can also use the 10% method. Any time you wish to find 10% of any number, move the decimal point one place to the left. The 1% method requires you to move two places to the left.So in that example, 30% of 125, when we move the decimal one place to the left we result in 12.5, which is 10% of 125.Now a simple multiplication or addition problem will yield the following:12.5 x 3 = 37.5012.5 + 12.5 + 12.5 = 37.50
The weapon should be fired at a 45-degree angle from the horizontal to achieve the minimum distance traveled by the projectile. This angle maximizes the range (horizontal distance) of the projectile by balancing the vertical and horizontal components of its velocity. At any other angle, the total distance traveled would be greater.
A trajectory of 45 degrees elevation gives the longest horizontal travel- (not taking air drag into consideration nor any aerodynamic properties of a projectile.
To improve projectile motion, you can adjust the initial velocity, launch angle, or launch height of the projectile. By optimizing these parameters, you can achieve greater distance, height, or accuracy in the motion of the projectile. Additionally, reducing air resistance and wind can also help improve the overall projectile motion.
To achieve the most distance, you should set your catapult to release a projectile at 45 degrees angle relative to horizontal plane.Higher stored potential energy doesn't neccesarily mean more distance. Distance of the shot depends mainly on starting velocity, which in turn depends on rate at which catapult transfers the energy to the projectile. A limit for that depends on construction of the catapult.
On a flat plane in a vacuum--exactly 45 degrees. Several changes are necessary in the real world. to account for Earth curvature and air resistance and other factors. What this angle is can't be stated without knowing all the variables. One often overlooked factor is that a projectile actually follows an elliptical path, not a parabolic one. Ballistics tables are very complex and were one of the first tasks taken over by computers.
A baseball, cannonball, or other projectile launched at a 45° angle above the horizon will achieve maximum horizontal range. A projectile launched straight up will achieve maximum altitude, but you kind of have to watch it and be careful when it returns.
Projectile motion in badminton is important as it helps players anticipate the trajectory of the shuttlecock and adjust their positioning and movements accordingly. Understanding projectile motion allows players to better control their shots by adjusting the angle and power of their hits to achieve desired results. It also helps in strategizing gameplay and predicting opponents' moves based on the projectile path of the shuttlecock.
To achieve nonzero speed at the top of the trajectory, you should throw the projectile upward with an initial velocity greater than zero. This will allow the projectile to continue moving upward even at the top of its trajectory before it begins to fall back down due to gravity.
The minimum speed for a projectile to achieve orbit around the Earth, known as orbital velocity, is approximately 17,500 miles per hour (28,000 kilometers per hour) when launched from the Earth's surface. This speed allows the projectile to balance the pull of gravity with the force of its forward motion, resulting in a stable orbit.
How fast are you accelerating? If I accelerate very slowly, I can travel about 100 miles before reaching 35 mph. On the other hand, a rocket propelled automobile could achieve 35 mph from standstill within ten feet.
For a companion they couldn't achieve in person. Sometimes it works and sometimes it does not.
A ruler with smaller, more closely spaced markings will provide a more precise measurement of the distance traveled by the snail. A metric ruler with millimeter markings would be the best option to achieve precise measurements.