A)Calculate the maximum height above the roof reached by the rock.Express your answer in meters. B) Calculate the magnitude of the velocity of the rock just before it strikes the ground.Express your answer in meters per second. C) Calculate the horizontal distance from the base of the building to the point where the rock strikes the ground.Express your answer in meters. A man stands on the roof of a building of height 15.0 m and throws a rock with a velocity of magnitude 26.0 m/s at an angle of 35.0° above the horizontal. You can ignore air resistance.This scenario can be used to study the physics of projectile motion, focusing on the calculation of the trajectory, time of flight, horizontal range, and maximum height of the rock. Key principles involved include decomposing the initial velocity into horizontal and vertical components, using kinematic equations for motion, and applying the effects of gravity on the projectile.

Given, height of the building, h = 15 m initial velocity o rock, u = 26 m/s the angle of…

A) Calculate the maximum height above the roof reached by the rock. Express your answer in meters. B) Calculate the magnitude of the velocity of the rock just before it strikes the ground. Express your answer in meters per second. C) Calculate the horizontal distance from the base of the building to the point where the rock strikes the ground. Express your answer in meters.

A) Calculate the maximum height above the roof reached by the rock. Express your answer in meters. B) Calculate the magnitude of the velocity of the rock just before it strikes the ground. Express your answer in meters per second. C) Calculate the horizontal distance from the base of the building to the point where the rock strikes the ground. Express your answer in meters.

Related questions

Q: #6) Let's say you ride your bike from your house to your friend's house. To get there you have to go…

Q: Bongo, the Australian Cat, goes for a stroll around the block. Bongo sees a scrumptious mouse and…

A: The mouse goes 6 blocks North and then turns 5 blocks East.The mouse then turns South and goes 6…

Q: An astronaut on the moon throws a baseball upward. The astronaut is 6 ft, 6 in. tall, and the…

Q: ew 7. A person going for a walk follows the path shown in the figure below. The total trip consists…

A: Approach to solving the question: Detailed explanation:

Q: Problem 2: Answer the following questions about path A in the figure. A city block is a square of I…

A: Length of each block ,l= 110m

Q: A delivery truck travels 33 blocks north, 20 blocks east, and 26 blocks south. Assume the blocks are…

A: Displacement Vector

Q: Which of the following statement(s) is true? O (a) A straight line passing through the origin has a…

A: a) False, slope can be nagative too b) True, in a straight line equation y & x are linearly…

Q: geed aming géonce a scar ? (d) Write a vector express- our position after you stop (in the form "N…

A: Velocity of the car, Time during which car traveled…

Q: A) Using vo, O, and g, write an expression for the time, Imax, the water travels to reach its…

Q: Question #1: An experimental railgun fires a steel slug into a resisting medium for impact analysis.…

Q: the range R when the ball strikes the ground.

A: we know range of a projectile motion is R = v2sin2θg where v = initial velocity of projectile θ=…

Q: During a fireworks display, a shell is shot into the air with an initial speed of 63.1 m/s at an…

Q: An airplane undergoes the following displacements, all at the same altitude: First, it flies 59.0 km…

Q: Vector A points in the negative direction and has a magnitude of 5km. Vector B has a magnitude of…

A: A vector difference is equivalent to a vector sum with the orientation of the second vector…

Q: Consider the game of baseball. A pitcher throws a ball to the catcher, with a speed of 86 miles per…

Q: The two disks A and B have a mass of 3 kg and 6 kg. respectively. They collide with the initial…

Q: DThe exhaust fan ina factory moves 400 CEM(cubic feet per minute) through the building. Giren that…

A: Write the unit conversion terms.

Q: . A clock has a 10 cm minute hand. From the 6 mark to the 9 mark, for tip of minute hand, calculate…

A: You have posted a question with more than 3 subparts. As per our policy, if nothing is mentioned,…

Q: Enter an expression for the basketball’s initial velocity vector, v⃗0 , in Cartesian unit-vector…

Q: The figure shows a building 46.0 meters high. You sit on the roof at the leftmost edge of the…

Q: I need to understand the difference between scalar quantity and vector quantity. I need to come up…

A: Any describing the magnitude only, has not defined direction are SCALAR quantities. To apply any…

Q: A small metal ball is kicked from the edge of a cliff. Its x- and y-coordinates as functions of time…

A: Given Data :x coordinate as a function of time x(t) = 19.9ty coordinate as a function of time y(t) =…

Q: a. enter a symbolic expression for the average acceleration vector of the car during the given time…

Q: 8. DETAILS m A small stone is kicked from the edge of a cliff. Its x- and y-coordinates as functions…

Q: A. using your measured distance (35 inches) your average time of motion (drop times…

Q: 1) An object follows as shown below. What is the displacement from the last point to the starting…

A: (a). The diagram shows the position of the object as a vector. Vector is a quantity that has both…

Q: Q1 The vectors 2 andB are given by -2i+4)-k m and 5=-3i+5k m. Detemine the scalar and vector product…

A: Answer (1) Given ( I,j,k are unit vector) Vector A = 2i +4j - k Vector B = - 3i + 5k =- 3i+0j + 5k…

Question

Calculate the maximum height above the roof reached by the rock.

Express your answer in meters.

Calculate the magnitude of the velocity of the rock just before it strikes the ground.

Express your answer in meters per second.

Calculate the horizontal distance from the base of the building to the point where the rock strikes the ground.

Express your answer in meters.

A man stands on the roof of a building of height 15.0 m and throws a rock with a velocity of magnitude 26.0 m/s at an angle of 35.0° above the horizontal. You can ignore air resistance.

This scenario can be used to study the physics of projectile motion, focusing on the calculation of the trajectory, time of flight, horizontal range, and maximum height of the rock. Key principles involved include decomposing the initial velocity into horizontal and vertical components, using kinematic equations for motion, and applying the effects of gravity on the projectile.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

Component Method: With your calculator, determine the x and y components of F1 and F2. Remember that Fx = Fcos θ and Fy = F sin θ. Find the x and y components of the resultant from the sum of x and y components. Draw a right triangle with x and y components as sides, and the hypotenuse representing the resultant. Calculate the magnitude of the resultant from the square root of (Rx2 + Ry2). Calculate the direction of the resultant by using θ R = tan-1 (Ry/Rx).
Crowdmark P MyLab & Masterin... N CAESAR - Northw... P GEN_ENG_205-1 (... onds ago BIU A 三三三三 1三三▼m▼三E 5... I 9. At t=0, a soccer ball is kicked due east (use the positive direction of the x x-axis as the eastward direction). Its initial speed is 10 m/s and its initial angle is 30 degrees above the horizontal. Due to strong westerly wind and the effect of gravitation, the acceleration of the soccer ball is a(1)=(-kt,-g), a(t)=(-kt,-g), where k is a positive constant. (a) Find the velocity v(t) of the ball. (b) Find the position vector r(t) of the ball. (c) Suppose that the ball lands back at the kicker's feet, exactly where it started. Find the value of the constant k. For ease of computation, we are using g=10 m/s2 m/s2.
Please help me answer number 5 with complete solution
1d. A student stands at the edge of a cliff and throws a stone horizontally over the edge with a speed of v0 = 18.5 m/s. The cliff is h = 20.0 m above a flat, horizontal beach as shown in the figure. Write the equations for the position of the stone with time, using the coordinates in the figure. (Use the following as necessary: t. Let the variable t be measured in seconds. Do not state units in your answer.) x= y=
1. You and your friend went to a camp. While you are in your cabin, you both decided to hike and visit the lake several kilometers away. Since there is two possible hiking course, you both decided that you take path 1 while your friend will try path 2. The total distance for path 1 is 7.5 km while path 2 is 8.2 km. What is the final displacement of each camper?
1/3 SS For the given vectors V₁ and V₂ of Prob. 1/2, de- termine the magnitude of the vector difference V' =V₂ - V₁ and the angle, which V' makes with the positive x-axis. Complete both graphical and algebraic solutions.
Problem 1: An object is launched off the top of a 45-m tall building with velocity of 70.9 m/s in the horizontal direction (no angle with respect to the horizontal). Pai. (a) In the space below, explain how you would find the time that the object is in the air. (Type the equation(s) you would use and the variable(s) you would solve for. Describe any other important steps. Do not show calculations or the numeric answer.)
A girl starts from the point A walks 8.0 m east, then 5.0 m south 3.0 m west, and finally 4.0 m to the north to a point B. The displacement from the point A to the point B is?
Bruce begins 7 kilometers to the north of town and rides his bike along a straight trail which leads to a park 3km west of town. It takes him 20 minutes to cover this distance. Write a vector in component form that describes his ride while also finding the magnitude and direction of this vector. Also, find the component of Bruce's motion which is in the direction of SW using a unit vector that uses both forms of the dot product (algebraic and geometric), then write parametric equations expressing his motion with the town being represented by the origin and t=0 being his starting point. Using these equations, what is his position after 5 minutes? Then eliminate the parameter to get a rectangular equation for this linear path and verify algabraically amd graphically that this equation represents the line.
If the stone had been thrown from the clifftop with the same initial speed and the same angle, but above the horizontal, then compare their impact velocities. a)The impact velocity when throwing a stone above horizontal will be more than the case when throwing a stone below horizontal. b The impact velocities of the two situations will be the same. c More information is needed to conclude the relative strength of impact velocities. d).The impact velocity when throwing a stone above horizontal will be less than the case when throwing a stone below horizontal. which option is correct
needs complete typed solution with 100 % accuracy.
Needs Complete typed solution with 100 % accuracy.