A) Using a x-y Cartesian coordinate system for reference depict the VECTOR POSITION for a projectile,...

7)A projectile is launched with velocity 68 m/s at an angle of 60° with the horizontal...

7)A projectile is launched with velocity 68 m/s at an angle of 60° with the horizontal (x-axis). The magnitude of the velocity at the highest point in its trajectory is ____________m/s.

A projectile is launched with an initial speed of 40.0 m/s at an angle of 35.0°...

A projectile is launched with an initial speed of 40.0 m/s at an angle of 35.0° above the horizontal. The projectile lands on a hillside 3.85 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 streamlined and compact projectile is launched from flat ground on a valley toward a distant...

A streamlined and compact projectile is launched from flat ground on a valley toward a distant hillside at an Army testing ground in Nevada. The projectile’s initial speed is vi = 150. m/s as it leaves the cannon. The initial angle of launch θi of the projectile is unknown. The projectile makes impact high on the distant hill a time t = 3.00 s after its departure. From GPS sensors we know that the site of impact is a straight-line...

A streamlined and compact projectile is launched from flat ground on a valley toward a distant...

A streamlined and compact projectile is launched from flat ground on a valley toward a distant hillside at an Army testing ground in Nevada. The projectile’s initial speed is vi = 150. m/s as it leaves the cannon. The initial angle of launch θi of the projectile is unknown. The projectile makes impact high on the distant hill a time t = 3.00 s after its departure. From GPS sensors we know that the site of impact is a straight-line...

A streamlined and compact projectile is launched from flat ground on a valley toward a distant...

A streamlined and compact projectile is launched from flat ground on a valley toward a distant hillside at an Army testing ground in Nevada. The projectile’s initial speed is vi = 150. m/s as it leaves the cannon. The initial angle of launch θi of the projectile is unknown. The projectile makes impact high on the distant hill a time t = 3.00 s after its departure. From GPS sensors we know that the site of impact is a straight-line...

Question: You stand at the bottom of a long ramp (i.e. one used for wheelchair access)...

Question: You stand at the bottom of a long ramp (i.e. one used for wheelchair access) and throw a tennis ball towards the top of the ramp, as shown in the sketch. Assume that the tennis ball leaves your hands a height h = 1.800 m from the ground and at a speed of v0 = 14.00 m/s and an angle of elevation of 51.03°, as shown in the sketch. Take the origin of a Cartesian coordinate system on the...

I have a physics problem that gives me a projectile launched. It tells me the angle...

I have a physics problem that gives me a projectile launched. It tells me the angle above horizontal, the MINIMUM speed while in flight, and the amount of meters the ball traveled when it lands. The question asks for max height. What's tripping me up is this MINIMUM velocity. Where on the projectile is the velocity a minimum. I was thinking the minimum velocity would be at the highest point, because at the highest point the velocity is 0, however,...

The object is stationary in the coordinate system S 'at x ′ = 115 m. The...

The object is stationary in the coordinate system S 'at x ′ = 115 m. The coordinate system S 'moves at a velocity v = 0.880c in the direction of the positive x-axis relative to the coordinate system S. The origin of the coordinate systems is at the same point at time t = t ′ = 0.000. a)Use the Galilei transform to determine the position of an object in S, at time t = 1.30 μs b) Use the...

A projectile motion (i.e. cannon) can be modeled via the following equations: x=u cos⁡θ t y=-0.5...

A projectile motion (i.e. cannon) can be modeled via the following equations: x=u cos⁡θ t y=-0.5 g t^2+u sin⁡θ t Where: x: Position of the cannonball after t seconds in the x-direction (meters) y: Position of the cannonball after t seconds in the y-direction (meters) u: Initial velocity of the cannonball (meters per second) g: Acceleration due to gravity (meters per second squared) t: Time (seconds) In this question, we are trying to see the effects of the angle ϴ...

In order to get full credit, you need to show all your work. A ball is...

In order to get full credit, you need to show all your work. A ball is launched from the top of a 60 m high building with an initial speed v0 at an angle 40° above the horizontal (close to the surface of Earth). Air resistance is negligible during the motion of the ball. On the coordinate system shown with origin on the ground, draw the path of the ball, the initial velocity vector, and its vector components. Then find...