The block shown in (Figure 1) has a mass of m = 75 kg, a height H= 1.4 m, and width L = 1.9 m. It is resting on a ramp that makes an angle = 29° with the horizontal. A force Pis applied parallel to the surface of the ramp at the top of the block. What is the maximum force that can be applied without causing the block to move? The coefficient of static friction is A4, = 0.37, and the center of mass of the block is at the center of the rectangle. igure H ㅗ G! W N F 2012 > ▾ Part D Use the free-body diagram shown in (Figure 2) and write the equilibrium equation for the moments about the point of contact. Express your answer in terms of one or more of P, W. H. L. N. F, and 8. Part E W Mo=0= P.H-(L cos 0+Hsin) Δ Σ Φ Ψ Ω η ε Variables are case sensitive. No credit lost. Try again. Submit Previous Answers Request Answer AE Ivec Byden Pup= Submit μA What is the maximum magnitude of P that can be applied before tipping would occur, assuming the block does not slip? Express your answer to three significant figures with appropriate units. Value Request Answer → O C K Units ? ? ENC

If you could help me out with part d, e, and f id greatly appreciate it, thanks!

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The block shown in (Figure 1) has a mass of m = 75 kg, a height H = 1.4 m, and width L = 1.9 m. It is resting on a ramp that makes an angle = 29° with the horizontal. A force P is applied parallel to the surface of the ramp at the top of the block. What is the maximum force that can be applied without causing the block to move? The coefficient of static friction is flg = 0.37, and the center of mass of the block is at the center of the rectangle. Figure P H 1 G W O + N x 2 of 2 Part D Use the free-body diagram shown in (Figure 2) and write the equilibrium equation for the moments about the point of contact. Express your answer in terms of one or more of P, W, H, L, N, F, and 0. Submit Part E 197| ΑΣΦ α Ptip = V Submit A В Variables are case sensitive. No credit lost. Try again. π P Σ Φ HÅ Value Y ↓↑ W Mo=0= P.H-(L cos 0+H sin() 2 • 8 Request Answer vec Previous Answers Request Answer € 0 T φ χ ΨΩ ħ E n Units 0 K What is the maximum magnitude of P that can be applied before tipping would occur, assuming the block does not slip? Express your answer to three significant figures with appropriate units. E y ? 2 @ ? μ BE

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The block shown in (Figure 1) has a mass of m = 75 kg, a height H = 1.4 m, and width L = 1.9 m. It is resting on a ramp that makes an angle = 29° with the horizontal. A force P is applied parallel to the surface of the ramp at the top of the block. What is the maximum force that can be applied without causing the block to move? The coefficient of static friction is flg = 0.37, and the center of mass of the block is at the center of the rectangle. Figure Att P 0 G. W O F < 2 of 2 Mo=0=PH-(L cos 0+ H sin ) Submit Part E Variables are case sensitive. No credit lost. Try again. Ptip = What is the maximum magnitude of P that can be applied before tipping would occur, assuming the block does not slip? Express your answer to three significant figures with appropriate units. μᾶ Submit ▾ Part F Pmax = Submit ▬ Previous Answers Request Answer Value Provide Feedback I Request Answer 2 What is the maximum magnitude of P that does not cause motion of the block? Express your answer to three significant figures with appropriate units. μÀ 3 Value Request Answer Units k ? ⒸE ? Units