You are 9.0 m from the door of your bus, behind the bus, when it pulls away with an acceleration of 1.0 m/s2. You instantly start running toward the still-open door at 5.5 m/s. What is the maximum time you can wait before starting to run and still catch the bus?
You are 9.0 m from the door of your bus, behind the bus, when it pulls...
You are 9.0 m from the door of your bus, behind the bus, when it pulls away with an acceleration of 1.0 m/s2. You instantly start running toward the still-open door at 6.1 m/s. a) How long does it take for you to reach the open door and jump in? b) What is the maximum time you can wait before starting to run and still catch the bus?
H HC Websihes LognEthical Criticism by PE concrete lamp SCaeRustic Mail Holder & Bamboo Winter 2019 Physics 231-01 roblem 2.60 You are 9.0 m from tre door of your bus, behind the bus, whon i puls away with an acceleration of 1.0 m/s You instantly start running toward the stil-open door at 4 Part A How long does it take for you to reach the open door and jump in? Express your answer with the appropriate units xIncorrect, Try Again;...
amboe Docking St best docking station Winter 2019 Physics 231-01 roblem 2.60 You are 90 m rom the door of your bus, behind the bus,wihen i pulils away with an acceleration of 1 ,0 m 2 You instandly start running toward the st open door at 4.3 m/s Part A How long does &take for you to reach the open door and jump in? Express your answer with the appropriate units 1.89 Х incorrect Try Again, 3 amempts remaining O...
Question 4 You just got off a a bus, and 1.15s after it pulls away you realize you left your backpack on board. You immediately run to catch it, accelerating at a constant 4.57 m/s2. The bus accelerates at a sluggish 1.03 m/s2. How long, in seconds, does it take you to catch up to the bus door? 1.04 margin of error +/-0.05 Find the time at which the positions of the bus & pedestrian are the same. You will...
As a physics instructor hurries to the bus stop, her bus passes her, stops ahead, and begins loading passengers. She runs at 6.0 m/s to catch the bus, but the door closes when she's still 5.5 m behind the door, and the bus leaves the stop at a constant acceleration of 2.0 m/s2. She has missed her bus, but as a physics exercise she keeps running at 6.0 m/s until she draws even with the bus door. Calculate Δt from...
A student is running at her top speed of 5.0 m/s to catch a bus, which is stopped at the bus stop. When the student is still a distance 38.8 m from the bus, it starts to pull away, moving with a constant acceleration of 0.167 m/s2 . A. For how much time does the student have to run at 5.0 m/s before she overtakes the bus? B. For what distance does the student have to run at 5.0 m/s...
A student is running at her top speed of 5.0 m/s to catch a bus, which is stopped at the bus stop. When the student is still a distance 38.8 m from the bus, it starts to pull away, moving with a constant acceleration of 0.167 m/s2 . A. What is the minimum speed the student must have to just catch up with the bus? B. For what time does she have to run in that case? C. For what...
As a physicist hurries to a bus stop, a bus passes her, stops ahead, and begins loading passengers. She begins running at 6 m/s. to catch the bus; however, when she is 8 meters behind the bus's sisde door, it closes and the bus begins driving away with a constant acceleration of 2 m/s^2. Relunctant to give up, she keeps running at 6 m/s until finally she reaches the bus's side door. How much time does it take for her...
A student is running at her top speed of 5.4m/s to catch a bus, which is stopped at the bus stop. When the student is still a distance 39.9m from the bus, it starts to pull away, moving with a constant acceleration of 0.174m/s2 . how much time does the student have to run at 5.4m/s before she overtakes the bus? what distance does the student have to run at 5.4m/s before she overtakes the bus? When she eaches the...
You have parked a Lloyd Noble a little late for your classes, so you need to catch the next bus if possible. Running at your top speed from behind the bus, the bus starts accelerating when you are still some distance behind the door of the bus. Assume the bus accelerates at a constant rate. The figure to the right shows you and the bus just as the bus starts moving. It also defines the positive x-direction, the point to...