If we increase the angle of the projectile's initial velocity by a lot? Explain your answer...
If we increase the angle of the projectile's initial velocity by a lot? Explain your answer by drawing trajectories for a projectile launched at 0, 10, 45, 80, and 90 degrees above the horizontal? I do not know how to draw this, help! Is it true that if its above 45 degrees then the range becomes shorter but if its below 45, it becomes longer
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If we increase the angle of the projectile's initial velocity by
a lot? Explain your answer...
A projectile is launched with an initial speed of 48.0 m/s at an angle of 31.0°...
A projectile is launched with an initial speed of 48.0 m/s at an angle of 31.0° above the horizontal. The projectile lands on a hillside 3.70 s later. Neglect air friction. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) What is the projectile's velocity at the highest point of its trajectory? magnitude _____ m/s direction _______ degrees (counterclockwise from the +x axis) (b) What is the straight-line distance from where the...
A projectile is launched with an initial speed of 58.0 m/s at an angle of 32.0°...
A projectile is launched with an initial speed of 58.0 m/s at an angle of 32.0° above the horizontal. The projectile lands on a hillside 3.80 s later. Neglect air friction. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) What is the projectile's velocity at the highest point of its trajectory? (b) What is the straight-line distance from where the projectile was launched to where it hits its target?
A projectile is launched with an initial speed of 51.0 m/s at an angle of 31.0°...
A projectile is launched with an initial speed of 51.0 m/s at an angle of 31.0° above the horizontal. The projectile lands on a hillside 3.65 s later. Neglect air friction. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) What is the projectile's velocity at the highest point of its trajectory? magnitude direction (b) What is the straight-line distance from where the projectile was launched to where it hits its target?
A projectile is launched with an initial speed of 41.0 m/s at an angle of 33.0°...
A projectile is launched with an initial speed of 41.0 m/s at an angle of 33.0° above the horizontal. The projectile lands on a hillside 3.75 s later. Neglect air friction. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) What is the projectile's velocity at the highest point of its trajectory? magnitude m/s direction ° counterclockwise from the +x-axis (b) What is the straight-line distance from where the projectile was launched...
A projectile is launched with an initial speed of 55.0 m/s at an angle of 34.0°...
A projectile is launched with an initial speed of 55.0 m/s at an angle of 34.0° above the horizontal. The projectile lands on a hillside 3.90 s later. Neglect air friction. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) What is the projectile's velocity at the highest point of its trajectory? magnitude m/s direction ° counterclockwise from the +x-axis (b) What is the straight-line distance from where the projectile was launched...
A projectile is launched with an initial speed of 59.0 m/s at an angle of 34.0°...
A projectile is launched with an initial speed of 59.0 m/s at an angle of 34.0° above the horizontal. The projectile lands on a hillside 3.60 s later. Neglect air friction. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) (a) What is the projectile's velocity at the highest point of its trajectory? magnitude m/s direction ° counterclockwise from the +x-axis (b) What is the straight-line distance from where the projectile was launched...
A projectile is launched with an initial velocity v , at an angle θ' above the...
A projectile is launched with an initial velocity v , at an angle θ' above the horizontal. At a certain pont A in its motion, its velocity angle is 0, above the horizontal. At another point B, later in its motion, its velocity angle is θ8 below the horizontal. What is the horizontal distance from A to B? 2. (Model the projectile as a particle. Assume a constant standard earth-surface g value. Ignore all air resistance.) You may assume that...
b. Calculate the time taken for the projectile to reach its maximum height. c. Calculate the...
b. Calculate the time taken for the projectile to reach its
maximum height.
c. Calculate the range R (how far in the horizontal) of this
projectile.
MO21430/S(3)-A11 The diagram below shows a trajectory for a projectile launched at 24 m/s at an angle of 34.0° above the horizontal. The arrow on the diagram below represents the initial velocity vector for the projectile. The distance marked R is the range (how far in the horizontal) of the projectile. a. [3 points]...
A projectile is launched at an initial angle ?0 above the horizontal from the edge of...
A projectile is launched at an initial angle ?0 above the horizontal from the edge of the top of a cliff that is 15 m high. It hits the ground below, at the level of the base of the cliff, 230 m from the cliff, after a flight time of 4.2 s. a) What was the initial horizontal component of the projectile’s velocity? b) What was the initial vertical component of the projectile’s velocity? c) What were the initial angle...
d) A projectile is launched with an initial velocity w at an angle 0 above the...
d) A projectile is launched with an initial velocity w at an angle 0 above the horizontal In terms of V, 0 and acceleration due to gravity g, determine for the projectile i) the time to reach its maximum height and ii) its maximum height (7 marks)
A projectile is launched with an initial velocity v , at an angle θ' above the horizontal. At a certain pont A in its motion, its velocity angle is 0, above the horizontal. At another point B, later in its motion, its velocity angle is θ8 below the horizontal. What is the horizontal distance from A to B? 2. (Model the projectile as a particle. Assume a constant standard earth-surface g value. Ignore all air resistance.) You may assume that...
b. Calculate the time taken for the projectile to reach its
maximum height.
c. Calculate the range R (how far in the horizontal) of this
projectile.
MO21430/S(3)-A11 The diagram below shows a trajectory for a projectile launched at 24 m/s at an angle of 34.0° above the horizontal. The arrow on the diagram below represents the initial velocity vector for the projectile. The distance marked R is the range (how far in the horizontal) of the projectile. a. [3 points]...
d) A projectile is launched with an initial velocity w at an angle 0 above the horizontal In terms of V, 0 and acceleration due to gravity g, determine for the projectile i) the time to reach its maximum height and ii) its maximum height (7 marks)
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